PMID: 10672039-2 Sentence 0 The highly ordered programme of temporal and spatial gene activation during sporulation is governed by the principal RNA polymerase holoenzyme ( GENEXXX ) and alternative holoenzyme forms containing the developmental sigma factors GENEXXX , GENEXXX , GENEXXX , GENEXXX and GENEXXX , which appear successively during development . Parse 0 +-----------------------------SUBJ:V_PASS-N----------------------------+ +---------------------COMP_during:N-N---------------------+ | +-------------------------------------------------SUBJ:V-N-------------------------------------------------+ +--------------COMP_of:N-N-------------+ | +-------------COMP_by:V_PASS-N------------+ | +-----------------OBJ:V-N-----------------+ | | +---MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-N---+ | | +--MOD_ATT:N-ADJ-+ +-------APPOS-------+--------APPOS--------+ +-------COMP_during:V-N-------+ | | +MOD_A+MOD_ATT+ | | +MOD_AT+ +MOD_ATT:N-+---APPOS---+ +MOD_ATT:N-+MOD_ATT:+SUBJ:V-+ | +MOD_AT+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD:V-ADV+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The highly ordered programme of temporal and spatial gene activation during sporulation is governed by the principal RNA polymerase holoenzyme ( GENEXXX ) and alternative holoenzyme forms containing the developmental sigma factors GENEXXX , GENEXXX , GENEXXX , GENEXXX and GENEXXX , which appear successively during development . APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (holoenzyme,RNA) MOD_ATT:N-ADJ (gene,spatial) SUBJ:V-N (containing,forms) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (activation,gene) MOD_ATT:N-N (holoenzyme,polymerase) MOD_ATT:N-N (factors,sigma) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-ADJ (gene,temporal) SUBJ:V-N (appear,forms) MOD_ATT:N-N (GENEXXX,factors) COMP_of:N-N (programme,activation) COMP_during:N-N (programme,sporulation) APPOS (holoenzyme,GENEXXX) MOD_ATT:N-N (forms,holoenzyme) MOD:V-ADV (appear,successively) SUBJ:V_PASS-N (governed,programme) COMP_by:V_PASS-N (governed,holoenzyme) MOD_ATT:N-ADJ (holoenzyme,alternative) MOD_ATT:N-ADJ (factors,developmental) COMP_during:V-N (appear,development) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (RNA,principal) Parse 1 +-----------------------------SUBJ:V_PASS-N----------------------------+ +-------------------------------------------------SUBJ:V-N-------------------------------------------------+ +---------------------COMP_during:N-N---------------------+ | | +------------------APPOS------------------+ | +--------------COMP_of:N-N-------------+ | +-------------COMP_by:V_PASS-N------------+ | +-----------------OBJ:V-N-----------------+------------APPOS------------+ | | | +---MOD_ATT:N-ADJ--+ | | | +-MOD_ATT:N-N-+ | +----MOD_ATT:N-N----+ +-------------OBJ:V-N-------------+ +-------APPOS-------+ | | +-------COMP_during:V-N-------+ | | +MOD_A+MOD_ATT+ | | | +MOD_AT+MOD_ATT:N-+---APPOS---+ | +MOD_ATT:+SUBJ:V-+-----OBJ:V-N----+ +MOD_AT+ +--APPOS--+ | | | +MOD:V-ADV+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The highly ordered programme of temporal and spatial gene activation during sporulation is governed by the principal RNA polymerase holoenzyme ( GENEXXX ) and alternative holoenzyme forms containing the developmental sigma factors GENEXXX , GENEXXX , GENEXXX , GENEXXX and GENEXXX , which appear successively during development . APPOS (GENEXXX,GENEXXX) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (forms,alternative) MOD_ATT:N-ADJ (gene,spatial) SUBJ:V-N (containing,forms) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (activation,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (holoenzyme,polymerase) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (polymerase,principal) MOD_ATT:N-ADJ (gene,temporal) SUBJ:V-N (appear,forms) COMP_of:N-N (programme,activation) MOD_ATT:N-N (polymerase,RNA) COMP_during:N-N (programme,sporulation) APPOS (GENEXXX,GENEXXX) OBJ:V-N (containing,factors) APPOS (holoenzyme,GENEXXX) MOD_ATT:N-N (forms,holoenzyme) MOD:V-ADV (appear,successively) OBJ:V-N (containing,developmental) COMP_by:V_PASS-N (governed,holoenzyme) SUBJ:V_PASS-N (governed,programme) COMP_during:V-N (appear,development) Parse 2 +-----------------------------SUBJ:V_PASS-N----------------------------+ +-------------------------------------------------SUBJ:V-N-------------------------------------------------+ +---------------------COMP_during:N-N---------------------+ | +--------------------------------APPOS--------------------------------+ | +--------------COMP_of:N-N-------------+ | +-------------COMP_by:V_PASS-N------------+ | +-----------------OBJ:V-N-----------------+ | | | +---MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-N---+ +----MOD_ATT:N-N----+ | +--MOD_ATT:N-N-+ +--------APPOS--------+ +-------COMP_during:V-N-------+ | | +MOD_A+MOD_ATT+ | | +MOD_AT+ +MOD_ATT:N-+---APPOS---+ | +MOD_ATT:+SUBJ:V-+-----OBJ:V-N----+ | +MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD:V-ADV+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The highly ordered programme of temporal and spatial gene activation during sporulation is governed by the principal RNA polymerase holoenzyme ( GENEXXX ) and alternative holoenzyme forms containing the developmental sigma factors GENEXXX , GENEXXX , GENEXXX , GENEXXX and GENEXXX , which appear successively during development . APPOS (GENEXXX,GENEXXX) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (holoenzyme,RNA) SUBJ:V-N (containing,forms) OBJ:V-N (containing,developmental) MOD_ATT:N-N (forms,alternative) MOD_ATT:N-ADJ (gene,spatial) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (activation,gene) MOD_ATT:N-N (holoenzyme,polymerase) MOD_ATT:N-ADJ (gene,temporal) SUBJ:V-N (appear,forms) MOD_ATT:N-N (GENEXXX,factors) APPOS (forms,GENEXXX) COMP_of:N-N (programme,activation) COMP_during:N-N (programme,sporulation) MOD_ATT:N-N (GENEXXX,sigma) APPOS (holoenzyme,GENEXXX) MOD_ATT:N-N (forms,holoenzyme) MOD:V-ADV (appear,successively) COMP_by:V_PASS-N (governed,holoenzyme) SUBJ:V_PASS-N (governed,programme) MOD_ATT:N-N (RNA,principal) COMP_during:V-N (appear,development) APPOS (GENEXXX,GENEXXX) PMID: 10754235-2 Sentence 1 In addition to others , it represses GENEXXX and activates GENEXXX and GENEXXX transcription . Parse 0 +------------------COMP_in:V-N-----------------+ | +----------SUBJ:V-N----------+------------OBJ:V-N------------+ +-------COMP_in:V-N------+ | +------MOD_ATT:N-N-----+ +COMP_to:N-+ +SUBJ:V+-OBJ:V-N+ | | +MOD_ATT:N-+ | | | | | | | | | In addition to others , it represses GENEXXX and activates GENEXXX and GENEXXX transcription . COMP_to:N-N (addition,others) SUBJ:V-N (represses,it) COMP_in:V-N (represses,addition) OBJ:V-N (represses,GENEXXX) SUBJ:V-N (activates,it) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (activates,transcription) MOD_ATT:N-N (transcription,GENEXXX) COMP_in:V-N (activates,addition) Parse 1 +------------------COMP_in:V-N-----------------+ | +------------COMP_to:V-N------------+ | | +----------SUBJ:V-N----------+ +-------COMP_in:V-N------+ +------------OBJ:V-N------------+ | +-COMP_to:V-N-+ | +------MOD_ATT:N-N-----+ | | +SUBJ:V+-OBJ:V-N+ | | +MOD_ATT:N-+ | | | | | | | | | In addition to others , it represses GENEXXX and activates GENEXXX and GENEXXX transcription . SUBJ:V-N (represses,it) COMP_in:V-N (represses,addition) OBJ:V-N (represses,GENEXXX) SUBJ:V-N (activates,it) OBJ:V-N (activates,transcription) MOD_ATT:N-N (transcription,GENEXXX) COMP_to:V-N (represses,others) MOD_ATT:N-N (transcription,GENEXXX) COMP_to:V-N (activates,others) COMP_in:V-N (activates,addition) Parse 2 +------------------COMP_in:V-N-----------------+ | +----------SUBJ:V-N----------+ +-------COMP_in:V-N------+ +------------OBJ:V-N------------+ +COMP_to:N-+ +SUBJ:V+-OBJ:V-N+ +-OBJ:V-N+ +MOD_ATT:N-+ | | | | | | | | | In addition to others , it represses GENEXXX and activates GENEXXX and GENEXXX transcription . COMP_to:N-N (addition,others) SUBJ:V-N (represses,it) COMP_in:V-N (represses,addition) OBJ:V-N (represses,GENEXXX) OBJ:V-N (activates,transcription) SUBJ:V-N (activates,it) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (activates,GENEXXX) COMP_in:V-N (activates,addition) Parse 3 +------------------COMP_in:V-N-----------------+ | +------------COMP_to:V-N------------+ | | +----------SUBJ:V-N----------+ +-------COMP_in:V-N------+ | | +-COMP_to:V-N-+ +------------OBJ:V-N------------+ | | +SUBJ:V+-OBJ:V-N+ +-OBJ:V-N+ +MOD_ATT:N-+ | | | | | | | | | In addition to others , it represses GENEXXX and activates GENEXXX and GENEXXX transcription . SUBJ:V-N (represses,it) COMP_in:V-N (represses,addition) OBJ:V-N (represses,GENEXXX) SUBJ:V-N (activates,it) OBJ:V-N (activates,GENEXXX) COMP_to:V-N (represses,others) OBJ:V-N (activates,transcription) MOD_ATT:N-N (transcription,GENEXXX) COMP_to:V-N (activates,others) COMP_in:V-N (activates,addition) PMID: 10869437-1 Sentence 2 In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . Parse 0 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 1 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | +------COMP_by:V_PASS-N-----+ | | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) Parse 2 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 3 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 4 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ | +-----------------COMP_by:V-N----------------+-----APPOS-----+ | | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) COMP_by:V-N (identify,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 5 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ +-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 6 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------------------------APPOS---------------------------------------------+ | | +----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ | | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 7 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | | | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) Parse 8 +------------------------------------------------------APPOS-----------------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 9 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | | | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) Parse 10 +---------COMP_in:V_PASS-N---------+ +------------------------------------------------COMP_by:V-N-----------------------------------------------+ | +----SUBJ:V_PASS-N---+-----------------COMP_by:V-N----------------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) Parse 11 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +----SUBJ:V_PASS-N---+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 12 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +----SUBJ:V_PASS-N---+-----------------COMP_by:V-N----------------+-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 13 +---------COMP_in:V_PASS-N---------+ +----------------------------------------------APPOS---------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 14 +-----------------------------COMP_by:V_PASS-N----------------------------+ +---------COMP_in:V_PASS-N---------+ +------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 15 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) APPOS (factor,GENEXXX) COMP_by:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 16 +-------------------------------------------COMP_by:N-N------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 17 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------COMP_by:V-N------------------------+ | | +----SUBJ:V_PASS-N---+-----------------COMP_by:V-N----------------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,factor) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 18 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | | +-----APPOS-----+ | | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) COMP_by:ADJ-N (likely,factor) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) Parse 19 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 20 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 21 +------------------------------------APPOS------------------------------------+ +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+-----APPOS-----+ | | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 22 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) MOD_POST:N-ADJ (promoters,likely) Parse 23 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+-----------------COMP_by:V-N----------------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 24 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 25 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 26 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------------------------APPOS---------------------------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 27 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 28 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 29 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +----SUBJ:V_PASS-N---+ | +------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 30 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +--------------------COMP_by:N-N-------------------+ | | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 31 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | | +-MOD_ATT:N-N-+ | | +---------------COMP_by:ADJ-N--------------+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) COMP_by:ADJ-N (likely,factor) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_by:ADJ-N (likely,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 32 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +----SUBJ:V_PASS-N---+ +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 33 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ +-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 34 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +----SUBJ:V_PASS-N---+---------------------------OBJ:V-N--------------------------+ +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) OBJ:V-N (identify,GENEXXX) Parse 35 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+---------------------------OBJ:V-N--------------------------+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) OBJ:V-N (identify,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:ADJ-N (likely,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 36 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+---------------------------OBJ:V-N--------------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) OBJ:V-N (identify,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:ADJ-N (likely,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 37 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +----SUBJ:V_PASS-N---+ +------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 38 +---------COMP_in:V_PASS-N---------+ +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +---------------COMP_by:ADJ-N--------------+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:ADJ-N (likely,factor) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_by:ADJ-N (likely,GENEXXX) Parse 39 +-------------------------------------------COMP_by:N-N------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 40 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------COMP_by:V-N------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+-----------------COMP_by:V-N----------------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) COMP_by:V-N (identify,factor) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) Parse 41 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------COMP_in:V_PASS-N---------+---------------------------COMP_by:V_PASS-N---------------------------+ | | +-MOD_ATT:N-N-+ +-------------------COMP_by:V_PASS-N-------------------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (used,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (used,factor) COMP_to:V_PASS-V (used,identify) Parse 42 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 43 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+ | | +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 44 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+ | | +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 45 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------APPOS----------------------+ | | +-MOD_ATT:N-N-+ | | +------------COMP_by:N-N-----------+ | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 46 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 47 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_to:V-V_PASS (identify,activated) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) COMP_by:V_PASS-N (activated,GENEXXX) Parse 48 +------------------------------------APPOS------------------------------------+ +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+-----------COMP_to:V_PASS-V_PASS----------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 49 +------------------------------------APPOS------------------------------------+ +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 50 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ | | +-----APPOS-----+ | | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) APPOS (promoters,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 51 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ | +-----APPOS-----+ | | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 52 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 53 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) APPOS (promoters,factor) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 54 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------------------------APPOS---------------------------------------------+ | | +----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 55 +------------------------------------------------------APPOS-----------------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------COMP_by:V_PASS-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 56 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | +------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 57 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+ | | | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 58 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | +---------------COMP_by:ADJ-N--------------+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) COMP_by:ADJ-N (likely,factor) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_by:ADJ-N (likely,GENEXXX) Parse 59 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +--------------------COMP_by:N-N-------------------+ | | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | | | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) Parse 60 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+ | | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 61 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 62 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 63 +---------COMP_in:V_PASS-N---------+ +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_by:ADJ-N (likely,factor) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 64 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 65 +----------------------------APPOS----------------------------+ +---------COMP_in:V_PASS-N---------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,factor) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 66 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 67 +----------------------------------------------APPOS---------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) APPOS (promoters,factor) COMP_to:V_PASS-V (used,identify) Parse 68 +----------------------------APPOS----------------------------+ +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 69 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +----SUBJ:V_PASS-N---+---------------------------OBJ:V-N--------------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) OBJ:V-N (identify,GENEXXX) Parse 70 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+---------------------------OBJ:V-N--------------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) OBJ:V-N (identify,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) Parse 71 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------------------------OBJ:V-N--------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) OBJ:V-N (identify,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) Parse 72 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+ | +------COMP_by:V_PASS-N-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 73 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 74 +--------------------------------------COMP_by:ADJ-N-------------------------------------+ +---------COMP_in:V_PASS-N---------+ +---------------COMP_by:ADJ-N--------------+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:ADJ-N (likely,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:ADJ-N (likely,factor) COMP_by:ADJ-N (likely,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 75 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 76 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 77 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------COMP_by:V-N------------------------+ | | +-MOD_ATT:N-N-+ | +-----------------COMP_by:V-N----------------+ | +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) APPOS (factor,GENEXXX) COMP_by:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 78 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +-----------------COMP_by:V-N----------------+ | | +---------COMP_in:V_PASS-N---------+ +--------COMP_to:V-V_PASS--------+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,factor) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 79 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +-----------------COMP_by:V-N----------------+ | | +---------COMP_in:V_PASS-N---------+ | +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) COMP_by:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 80 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) COMP_to:V-V_PASS (identify,activated) SUBJ:V_PASS-N (identify,models) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (used,models) COMP_by:V-N (identify,factor) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) Parse 81 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------------------------COMP_by:V_PASS-N---------------------------+ | +-------------------COMP_by:V_PASS-N-------------------+ | | +---------COMP_in:V_PASS-N---------+-----------COMP_to:V_PASS-V_PASS----------+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (used,factor) COMP_to:V_PASS-V (used,identify) Parse 82 +------------------------------------------------------APPOS-----------------------------------------------------+ | +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | +---------COMP_in:V_PASS-N---------+ | | +-----APPOS-----+ | | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:ADJ-N (likely,factor) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 83 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 84 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+ | | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 85 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+ | | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 86 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) Parse 87 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,factor) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 88 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) Parse 89 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------APPOS----------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 90 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,factor) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 91 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------APPOS----------------------+ | | +-MOD_ATT:N-N-+ | | +-----SUBJ:V_PASS-N----+ | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 92 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 93 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----APPOS-----+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 94 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 95 +------------------------------------------------------APPOS-----------------------------------------------------+ | +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ | +-----APPOS-----+ | | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 96 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) Parse 97 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ +-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 98 +------------------------------------------------------APPOS-----------------------------------------------------+ | +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 99 +------------------------------------APPOS------------------------------------+ +-------------------COMP_by:V_PASS-N-------------------+----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 100 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (promoters,factor) COMP_to:V_PASS-V (used,identify) Parse 101 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 102 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +-----------------------APPOS----------------------+ | | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) MOD_POST:N-ADJ (promoters,likely) Parse 103 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +-----------------------APPOS----------------------+ | | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 104 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +----SUBJ:V_PASS-N---+ | +------COMP_by:V_PASS-N-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 105 +------------------------------------------------------APPOS-----------------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ | | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 106 +------------------------------------------------------APPOS-----------------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 107 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +--------------------COMP_by:N-N-------------------+ | | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:N-N (promoters,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 108 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +--------------------COMP_by:N-N-------------------+ | | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) Parse 109 +--------------------------------------COMP_by:ADJ-N-------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:ADJ-N (likely,factor) MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:ADJ-N (likely,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 110 +-------------------------------------------COMP_by:N-N------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:N-N (promoters,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 111 +---------COMP_in:V_PASS-N---------+ +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | +-MOD_ATT:N-N-+ | | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:ADJ-N (likely,factor) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 112 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+ | | +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 113 +-------------------------------------------COMP_by:N-N------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) Parse 114 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) COMP_to:V-V_PASS (identify,activated) SUBJ:V_PASS-N (identify,models) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (used,models) COMP_by:V-N (identify,factor) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 115 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +-------------------COMP_by:V_PASS-N-------------------+ | +---------COMP_in:V_PASS-N---------+-----------COMP_to:V_PASS-V_PASS----------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (used,factor) COMP_to:V_PASS-V (used,identify) Parse 116 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 117 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 118 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 119 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_to:V-V_PASS (identify,activated) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 120 +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+----------------------------APPOS----------------------------+ | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 121 +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) APPOS (factor,GENEXXX) MOD_ATT:N-N (transcription,sporulation) Parse 122 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +---------------------------OBJ:V-N--------------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) OBJ:V-N (identify,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 123 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------------------------OBJ:V-N--------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | +-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) OBJ:V-N (identify,GENEXXX) Parse 124 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+ | +------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 125 +-----------------------------COMP_by:V_PASS-N----------------------------+ +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 126 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+------COMP_by:V_PASS-N-----+ +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) COMP_to:V-V_PASS (identify,activated) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 127 +--------------------------------------COMP_by:ADJ-N-------------------------------------+ +---------COMP_in:V_PASS-N---------+ +---------------COMP_by:ADJ-N--------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:ADJ-N (likely,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:ADJ-N (likely,factor) COMP_by:ADJ-N (likely,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 128 +-------------------------------------------COMP_by:N-N------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+ | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 129 +-------------------------------------------COMP_by:N-N------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 130 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------------------------COMP_by:V_PASS-N---------------------------+ | +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+ | +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (factor,transcription) COMP_by:V_PASS-N (used,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_by:V_PASS-N (used,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 131 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ | | +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,factor) MOD_ATT:N-N (transcription,sporulation) COMP_to:V-V_PASS (identify,activated) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) Parse 132 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | | +----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,factor) COMP_to:V-V_PASS (identify,activated) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) Parse 133 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | | +-MOD_ATT:N-N-+ | | +-----SUBJ:V_PASS-N----+ | | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) COMP_by:V-N (identify,factor) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:V-N (identify,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 134 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | | +-MOD_ATT:N-N-+ | | +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) COMP_by:V-N (identify,factor) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:V-N (identify,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 135 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------------------------COMP_by:V_PASS-N---------------------------+ | +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+ | | | +-MOD_ATT:N-N-+ | +--------COMP_to:V-V_PASS--------+ | | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (used,factor) COMP_to:V_PASS-V (used,identify) Parse 136 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------------------------COMP_by:V_PASS-N---------------------------+ | +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+ | | | +-MOD_ATT:N-N-+ +-----------COMP_to:V_PASS-V_PASS----------+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:V_PASS-N (used,factor) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (used,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 137 +------------------------------------------------------APPOS-----------------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +---------COMP_in:V_PASS-N---------+ | | +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 138 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | | +----SUBJ:V_PASS-N---+ | | +-----APPOS-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:ADJ-N (likely,factor) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 139 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+-----APPOS-----+ | | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:N-N (promoters,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 140 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | | +-MOD_ATT:N-N-+ | | | +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_by:ADJ-N (likely,factor) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 141 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 142 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 143 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) Parse 144 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 145 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 146 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 147 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ | +-----SUBJ:V_PASS-N----+ | +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 148 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------APPOS----------------------+ | | +-MOD_ATT:N-N-+ | | +-----SUBJ:V_PASS-N----+ | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 149 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------APPOS----------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 150 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) COMP_to:V-V_PASS (identify,activated) MOD_ATT:N-N (models,Hidden) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 151 +------------------------------------APPOS------------------------------------+ +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----APPOS-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 152 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 153 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ | +--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ | | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 154 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) COMP_to:V-V_PASS (identify,activated) MOD_ATT:N-N (models,Hidden) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 155 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 156 +------------------------------------APPOS------------------------------------+ +-------------------COMP_by:V_PASS-N-------------------+----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 157 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ | +--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ | | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_to:V-V_PASS (identify,activated) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 158 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | +-----APPOS-----+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 159 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 160 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +-----------------------APPOS----------------------+ | | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (promoters,factor) COMP_to:V_PASS-V (used,identify) Parse 161 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ | +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) APPOS (promoters,factor) COMP_to:V_PASS-V (used,identify) Parse 162 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------------------------APPOS---------------------------------------------+ | | +-MOD_ATT:N-N-+ | +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (promoters,factor) COMP_to:V_PASS-V (used,identify) Parse 163 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 164 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ | | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 165 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | | +-MOD_ATT:N-N-+ | | +---------------COMP_by:ADJ-N--------------+ | | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) COMP_by:ADJ-N (likely,factor) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:ADJ-N (likely,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 166 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 167 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | +---------------COMP_by:ADJ-N--------------+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) COMP_by:ADJ-N (likely,factor) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_by:ADJ-N (likely,GENEXXX) Parse 168 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +--------------------COMP_by:N-N-------------------+ | | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ | | | | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) COMP_to:V_PASS-V (used,identify) Parse 169 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +--------------------COMP_by:N-N-------------------+ | | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 170 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +----SUBJ:V_PASS-N---+ | +-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) Parse 171 +-----------------------------COMP_by:V_PASS-N----------------------------+ +---------COMP_in:V_PASS-N---------+ +--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 172 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) COMP_to:V-V_PASS (identify,activated) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 173 +-----------------------------COMP_by:V_PASS-N----------------------------+ +---------COMP_in:V_PASS-N---------+-----------COMP_to:V_PASS-V_PASS----------+ +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 174 +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 175 +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 176 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+ | | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,factor) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 177 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) COMP_by:V_PASS-N (used,factor) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 178 +-------------------------------------------COMP_by:N-N------------------------------------------+ +------------COMP_by:N-N-----------+ | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:N-N (promoters,factor) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 179 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | +-MOD_ATT:N-N-+ | | +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:V-N (identify,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) COMP_to:V_PASS-V (used,identify) Parse 180 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+ | | +-MOD_ATT:N-N-+ +-----------COMP_to:V_PASS-V_PASS----------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (used,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (used,factor) COMP_to:V_PASS-V (used,identify) Parse 181 +----------------------------APPOS----------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) COMP_by:V-N (identify,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 182 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 183 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +-----------------COMP_by:V-N----------------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 184 +------------COMP_by:N-N-----------+----------------------------APPOS----------------------------+ +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 185 +----------------------------------------------APPOS---------------------------------------------+ +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) APPOS (promoters,factor) COMP_to:V_PASS-V (used,identify) Parse 186 +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) Parse 187 +---------COMP_in:V_PASS-N---------+ +----------------------------------------------APPOS---------------------------------------------+ | +----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) APPOS (promoters,factor) Parse 188 +----------------------------------------------APPOS---------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) Parse 189 +----------------------------------------------APPOS---------------------------------------------+ +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) APPOS (promoters,factor) COMP_to:V_PASS-V (used,identify) Parse 190 +----------------------------------------------APPOS---------------------------------------------+ +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | +-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 191 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +----SUBJ:V_PASS-N---+---------------------------OBJ:V-N--------------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) OBJ:V-N (identify,GENEXXX) Parse 192 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------------------------OBJ:V-N--------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) OBJ:V-N (identify,GENEXXX) Parse 193 +---------COMP_in:V_PASS-N---------+ +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | +----SUBJ:V_PASS-N---+ +---------------COMP_by:ADJ-N--------------+ +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:ADJ-N (likely,GENEXXX) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) COMP_by:ADJ-N (likely,factor) COMP_by:ADJ-N (likely,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) Parse 194 +-----------------------------COMP_by:V_PASS-N----------------------------+ +---------COMP_in:V_PASS-N---------+ +------COMP_by:V_PASS-N-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 195 +---------COMP_in:V_PASS-N---------+ +--------------------------------------COMP_by:ADJ-N-------------------------------------+ | +-MOD_ATT:N-N-+ | +---------------COMP_by:ADJ-N--------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:ADJ-N (likely,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) COMP_by:ADJ-N (likely,factor) COMP_by:ADJ-N (likely,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 196 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+ +-----------COMP_to:V_PASS-V_PASS----------+------COMP_by:V_PASS-N-----+ +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 197 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+ +-----------COMP_to:V_PASS-V_PASS----------+------COMP_by:V_PASS-N-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_to:V_PASS-V_PASS (used,activated) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 198 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 199 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+ | +------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 200 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +-----------------COMP_by:V-N----------------+ | | +---------COMP_in:V_PASS-N---------+ +--------COMP_to:V-V_PASS--------+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) APPOS (factor,GENEXXX) COMP_by:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 201 +-------------------------------------------COMP_by:N-N------------------------------------------+ +--------------------COMP_by:N-N-------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ | | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 202 +-------------------------------------------COMP_by:N-N------------------------------------------+ +--------------------COMP_by:N-N-------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 203 +-------------------------------------------COMP_by:N-N------------------------------------------+ +--------------------COMP_by:N-N-------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 204 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:N-N (promoters,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 205 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 206 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+ | | +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 207 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +------------COMP_by:N-N-----------+ | +---------COMP_in:V_PASS-N---------+ | +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 208 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +------------COMP_by:N-N-----------+ | +---------COMP_in:V_PASS-N---------+ | +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 209 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------APPOS----------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 210 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+ | | +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 211 +------------------------------------APPOS------------------------------------+ +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_by:V_PASS-N (activated,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 212 +------------------------------------APPOS------------------------------------+ +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+-----------COMP_to:V_PASS-V_PASS----------+ +-----APPOS-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 213 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 214 +------------------------------------APPOS------------------------------------+ +-----------------COMP_by:V-N----------------+----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 215 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 216 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 217 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 218 +------------------------------------APPOS------------------------------------+ +-------------------COMP_by:V_PASS-N-------------------+----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+-----------COMP_to:V_PASS-V_PASS----------+ +-----APPOS-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 219 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 220 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) Parse 221 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 222 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +-----------------------APPOS----------------------+ | | +------------COMP_by:N-N-----------+ | | | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ | | | | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 223 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) Parse 224 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 225 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +--------------------COMP_by:N-N-------------------+ | | +------------COMP_by:N-N-----------+ | | | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 226 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 227 +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) COMP_by:N-N (promoters,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) Parse 228 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,factor) COMP_to:V-V_PASS (identify,activated) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 229 +----------------------------APPOS----------------------------+ +---------COMP_in:V_PASS-N---------+ +--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 230 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +----SUBJ:V_PASS-N---+--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) Parse 231 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) COMP_by:ADJ-N (likely,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 232 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) APPOS (factor,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 233 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 234 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 235 +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+----------------------------APPOS----------------------------+ | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 236 +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+----------------------------APPOS----------------------------+ | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 237 +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 238 +----------------------------------------------APPOS---------------------------------------------+ +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 239 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------------------------OBJ:V-N--------------------------+ | +---------COMP_in:V_PASS-N---------+ | +-----SUBJ:V_PASS-N----+ | +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) OBJ:V-N (identify,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 240 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------------------------OBJ:V-N--------------------------+ | +---------COMP_in:V_PASS-N---------+ | +-----SUBJ:V_PASS-N----+ | +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) OBJ:V-N (identify,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 241 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------------------------OBJ:V-N--------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) OBJ:V-N (identify,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 242 +-----------------------------COMP_by:V_PASS-N----------------------------+ +---------COMP_in:V_PASS-N---------+ +--------COMP_to:V-V_PASS--------+------COMP_by:V_PASS-N-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 243 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +----SUBJ:V_PASS-N---+ +------COMP_by:V_PASS-N-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 244 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +-----------------COMP_by:V-N----------------+ | | +---------COMP_in:V_PASS-N---------+ +--------COMP_to:V-V_PASS--------+ | | +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) APPOS (factor,GENEXXX) COMP_by:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 245 +-------------------------------------------COMP_by:N-N------------------------------------------+ +--------------------COMP_by:N-N-------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 246 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +-----------------COMP_by:V-N----------------+ | | +---------COMP_in:V_PASS-N---------+ | +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 247 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------------------------COMP_by:V_PASS-N---------------------------+ | +-------------------COMP_by:V_PASS-N-------------------+ | | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ | | +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) OBJ:V-N (identify,promoters) MOD_ATT:N-N (factor,transcription) COMP_by:V_PASS-N (used,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_by:V_PASS-N (used,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 248 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------------------------COMP_by:V_PASS-N---------------------------+ | +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+ | | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ | | +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) APPOS (factor,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (used,factor) COMP_by:V_PASS-N (used,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 249 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 250 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (transcription,sporulation) Parse 251 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) MOD_POST:N-ADJ (promoters,likely) Parse 252 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+ | | +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 253 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +----SUBJ:V_PASS-N---+ +-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 254 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 255 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 256 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+ | | +-----SUBJ:V_PASS-N----+ | | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 257 +------------------------------------APPOS------------------------------------+ +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 258 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----APPOS-----+ | | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 259 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 260 +------------------------------------APPOS------------------------------------+ +------------COMP_by:N-N-----------+----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 261 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) COMP_by:V_PASS-N (activated,GENEXXX) Parse 262 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+-----------------COMP_by:V-N----------------+-----APPOS-----+ | | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) COMP_by:V-N (identify,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 263 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 264 +------------------------------------------------------APPOS-----------------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 265 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-MOD_ATT:N-N-+ | | +------COMP_by:V_PASS-N-----+ | | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 266 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +----SUBJ:V_PASS-N---+ | +------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 267 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+ | +--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 268 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 269 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | +-MOD_ATT:N-N-+ | +--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_to:V-V_PASS (identify,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 270 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 271 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +-------------------COMP_by:V_PASS-N-------------------+ | +---------COMP_in:V_PASS-N---------+-----------COMP_to:V_PASS-V_PASS----------+ +-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) COMP_by:V_PASS-N (used,factor) COMP_to:V_PASS-V_PASS (used,activated) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 272 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ +-----------COMP_to:V_PASS-V_PASS----------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 273 +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+----------------------------APPOS----------------------------+ | +----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) MOD_POST:N-ADJ (promoters,likely) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 274 +----------------------------------------------APPOS---------------------------------------------+ +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ | +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) APPOS (promoters,factor) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 275 +---------COMP_in:V_PASS-N---------+ +----------------------------------------------APPOS---------------------------------------------+ | +-MOD_ATT:N-N-+ | +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+-------COMP_by:ADJ-N------+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:ADJ-N (likely,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) APPOS (promoters,factor) COMP_to:V_PASS-V (used,identify) Parse 276 +-------------------COMP_by:V_PASS-N-------------------+----------------------------APPOS----------------------------+ +---------COMP_in:V_PASS-N---------+-----------COMP_to:V_PASS-V_PASS----------+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) COMP_to:V_PASS-V_PASS (used,activated) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 277 +----------------------------------------------APPOS---------------------------------------------+ +-----------------------APPOS----------------------+ | +------------COMP_by:N-N-----------+ | | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 278 +----------------------------------------------APPOS---------------------------------------------+ +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (factor,GENEXXX) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) Parse 279 +-----------------------------COMP_by:V_PASS-N----------------------------+ +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 280 +-----------------------------COMP_by:V_PASS-N----------------------------+ +---------COMP_in:V_PASS-N---------+ +------COMP_by:V_PASS-N-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 281 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------COMP_by:V_PASS-N-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) SUBJ:V_PASS-N (activated,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 282 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +-----------------COMP_by:V-N----------------+ | | +---------COMP_in:V_PASS-N---------+ | +-----SUBJ:V_PASS-N----+ | | +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) APPOS (factor,GENEXXX) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 283 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------------------------COMP_by:V_PASS-N---------------------------+ | +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+ | | | +-MOD_ATT:N-N-+ | +--------COMP_to:V-V_PASS--------+ | | +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) COMP_to:V-V_PASS (identify,activated) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (used,factor) COMP_by:V_PASS-N (used,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 284 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------COMP_by:V-N------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+-----------------COMP_by:V-N----------------+ | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) COMP_by:V-N (identify,factor) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) Parse 285 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------COMP_by:V-N------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+-----------------COMP_by:V-N----------------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) COMP_by:V-N (identify,factor) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) Parse 286 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 287 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+ | | +-----------------------APPOS----------------------+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 288 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-----------------------APPOS----------------------+ | | +------------COMP_by:N-N-----------+ | | +---------COMP_in:V_PASS-N---------+ | +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 289 +------------------------------------APPOS------------------------------------+ +------------COMP_by:N-N-----------+----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 290 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 291 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (factor,sporulation) Parse 292 +------------------------------------------------------APPOS-----------------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------COMP_by:V_PASS-N-----+ | | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 293 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +----SUBJ:V_PASS-N---+ | +------COMP_by:V_PASS-N-----+ | | +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 294 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +--------------------COMP_by:N-N-------------------+ | | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:N-N (promoters,factor) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 295 +-----------------------------COMP_by:V_PASS-N----------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 296 +---------COMP_in:V_PASS-N---------+--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ | +-MOD_ATT:N-N-+ +-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (used,factor) COMP_to:V_PASS-V (used,identify) Parse 297 +---------COMP_in:V_PASS-N---------+--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ | +-MOD_ATT:N-N-+ +-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (used,factor) COMP_to:V_PASS-V (used,identify) Parse 298 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 299 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ +COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 300 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 301 +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ | +--------COMP_to:V-V_PASS--------+ +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) COMP_to:V-V_PASS (identify,activated) MOD_ATT:N-N (models,Hidden) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 302 +---------COMP_in:V_PASS-N---------+ +----------------------------------------------APPOS---------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 303 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------------------------OBJ:V-N--------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) OBJ:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 304 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +----SUBJ:V_PASS-N---+ +------COMP_by:V_PASS-N-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) Parse 305 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------COMP_by:V-N------------------------+ | | +-MOD_ATT:N-N-+ | +-----------------COMP_by:V-N----------------+ | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,factor) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 306 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------------------------COMP_by:V_PASS-N---------------------------+ | +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (used,factor) COMP_by:V_PASS-N (used,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 307 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | | +-----APPOS-----+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 308 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+ | +-----SUBJ:V_PASS-N----+ +-----APPOS-----+ | | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) COMP_by:N-N (promoters,factor) SUBJ:V_PASS-N (activated,promoters) MOD_POST:N-ADJ (promoters,likely) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 309 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 310 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +----SUBJ:V_PASS-N---+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 311 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | | | +-MOD_ATT:N-N-+ | | +-----SUBJ:V_PASS-N----+ | | +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+MOD_POS+ | | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_POST:N-ADJ (promoters,likely) COMP_to:V_PASS-V (used,identify) Parse 312 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ | +-----APPOS-----+ | | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (approach,second) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 313 +------------------------------------APPOS------------------------------------+ +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 314 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 315 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------------------------APPOS---------------------------------------------+ | | +-MOD_ATT:N-N-+ | +-----------------------APPOS----------------------+ +------MOD_ATT:N-N-----+ | +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) APPOS (promoters,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) APPOS (promoters,factor) COMP_to:V_PASS-V (used,identify) Parse 316 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | | | +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (transcription,sporulation) Parse 317 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 318 +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 319 +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 320 +---------COMP_in:V_PASS-N---------+ +------------------------------------------------COMP_by:V-N-----------------------------------------------+ | +-MOD_ATT:N-N-+ | +-----------------COMP_by:V-N----------------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) COMP_to:V_PASS-V (used,identify) Parse 321 +----------------------------APPOS----------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 322 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) MOD_ATT:N-N (approach,second) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 323 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +---------------------------OBJ:V-N--------------------------+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) OBJ:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 324 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------------------------OBJ:V-N--------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) OBJ:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 325 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +---------------------------OBJ:V-N--------------------------+ | | +-MOD_ATT:N-N-+ | | +------------COMP_by:N-N-----------+ | +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) OBJ:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 326 +-------------------------------------------COMP_by:N-N------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) COMP_by:N-N (promoters,factor) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) Parse 327 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------COMP_by:V-N------------------------+ | | +----SUBJ:V_PASS-N---+-----------------COMP_by:V-N----------------+ | +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) APPOS (factor,GENEXXX) COMP_by:V-N (identify,GENEXXX) Parse 328 +-------------------------------------------COMP_by:N-N------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 329 +--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ +---------COMP_in:V_PASS-N---------+---------------------------COMP_by:V_PASS-N---------------------------+ | | +-MOD_ATT:N-N-+ +-------------------COMP_by:V_PASS-N-------------------+ | +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (used,factor) COMP_by:V_PASS-N (used,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 330 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 331 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-MOD_ATT:N-N-+ | | +------------COMP_by:N-N-----------+-----APPOS-----+ +-----APPOS-----+ +MOD_ATT+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . OBJ:V-N (identify,factor) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 332 +------------------------------------APPOS------------------------------------+ +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+-----APPOS-----+ | | +MOD_ATT+ +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (approach,second) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 333 +------------------------------------APPOS------------------------------------+ +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 334 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 335 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) APPOS (promoters,GENEXXX) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (promoters,factor) Parse 336 +------------------------------------------------------APPOS-----------------------------------------------------+ +----------------------------------------------APPOS---------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ | | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) APPOS (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 337 +---------COMP_in:V_PASS-N---------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | +-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 338 +---------COMP_in:V_PASS-N---------+ +------------------------------------------------COMP_by:V-N-----------------------------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+-----------------COMP_by:V-N----------------+-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (activated,promoters) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) COMP_by:V-N (identify,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) Parse 339 +----------------------------------------------APPOS---------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-----------------------APPOS----------------------+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (promoters,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 340 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,transcription) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 341 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------COMP_by:V-N------------------------+ | | +-MOD_ATT:N-N-+ | +-----------------COMP_by:V-N----------------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) APPOS (factor,GENEXXX) COMP_by:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 342 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | | +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 343 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 344 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 345 +---------COMP_in:V_PASS-N---------+ +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) Parse 346 +------------------------------------APPOS------------------------------------+ +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_by:V_PASS-N (activated,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 347 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+ | | +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 348 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ | +----------------------------APPOS----------------------------+ | | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ | +-----APPOS-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (factor,transcription) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V_PASS-N (activated,GENEXXX) Parse 349 +------------------------------------------------------APPOS-----------------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------COMP_by:V_PASS-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:V_PASS-N (activated,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 350 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:N-N (promoters,factor) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 351 +-----------------------------COMP_by:V_PASS-N----------------------------+ +---------COMP_in:V_PASS-N---------+ | +-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V_PASS-N (activated,factor) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 352 +-------------------------------------------COMP_by:N-N------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 353 +---------COMP_in:V_PASS-N---------+--------------------------------------------------COMP_by:V_PASS-N--------------------------------------------------+ | +-MOD_ATT:N-N-+ +-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) OBJ:V-N (identify,promoters) MOD_ATT:N-N (factor,transcription) COMP_by:V_PASS-N (used,factor) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 354 +----------------------------APPOS----------------------------+ +---------COMP_in:V_PASS-N---------+ +-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 355 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+----SUBJ:V_PASS-N---+ +-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) OBJ:V-N (identify,promoters) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) Parse 356 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +----SUBJ:V_PASS-N---+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) SUBJ:V_PASS-N (identify,models) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) Parse 357 +---------COMP_in:V_PASS-N---------+ +----------------------------------------------APPOS---------------------------------------------+ | +----SUBJ:V_PASS-N---+ +-----------------------APPOS----------------------+ +-----APPOS-----+ | +MOD_AT+SUBJ:V_PAS+ +-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (identify,models) MOD_ATT:N-N (GENEXXX,final) SUBJ:V_PASS-N (used,models) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) APPOS (promoters,factor) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (activated,GENEXXX) Parse 358 +----------------------------APPOS----------------------------+ +---------COMP_in:V_PASS-N---------+-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 359 +----------------------------------------------APPOS---------------------------------------------+ +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) APPOS (promoters,factor) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 360 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +---------------------------OBJ:V-N--------------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) OBJ:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 361 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +-------------------------COMP_by:V-N------------------------+ | +---------COMP_in:V_PASS-N---------+ +-----------------COMP_by:V-N----------------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) SUBJ:V_PASS-N (activated,promoters) OBJ:V-N (identify,promoters) COMP_by:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,GENEXXX) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 362 +------------------------------------------------COMP_by:V-N-----------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------COMP_by:V-N------------------------+ | | +-MOD_ATT:N-N-+ | +-----------------COMP_by:V-N----------------+ | +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:V-N (identify,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_by:V-N (identify,factor) APPOS (factor,GENEXXX) COMP_by:V-N (identify,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 363 +-------------------------------------------COMP_by:N-N------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +--------------------COMP_by:N-N-------------------+ | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+ | +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) COMP_by:N-N (promoters,factor) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 364 +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +-----------------------APPOS----------------------+ | +---------COMP_in:V_PASS-N---------+ | +------------COMP_by:N-N-----------+ | +-----APPOS-----+ | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,transcription) SUBJ:V_PASS-N (activated,promoters) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) OBJ:V-N (identify,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 365 +------------------------------------------------------APPOS-----------------------------------------------------+ | +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ | +-----APPOS-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+COMP_by:V_P+ +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) COMP_by:V_PASS-N (activated,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 366 +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+-----APPOS-----+ +-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ +-MOD_ATT:N-N+MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (transcription,sporulation) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 367 +---------COMP_in:V_PASS-N---------+ +----------------------------APPOS----------------------------+ | +-MOD_ATT:N-N-+ +-------------------COMP_by:V_PASS-N-------------------+-----APPOS-----+ +------MOD_ATT:N-N-----+-----APPOS-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) APPOS (factor,GENEXXX) COMP_to:V_PASS-V (used,identify) Parse 368 +------------------------------------------------------APPOS-----------------------------------------------------+ +---------COMP_in:V_PASS-N---------+ +-------------------------------------------COMP_by:N-N------------------------------------------+ | | +-MOD_ATT:N-N-+ | +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (promoters,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (models,Hidden) MOD_ATT:N-N (factor,sporulation) MOD_ATT:N-N (factor,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_by:N-N (promoters,factor) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) Parse 369 +------------------------------------------------------APPOS-----------------------------------------------------+ | +----------------------------APPOS----------------------------+ | +---------COMP_in:V_PASS-N---------+ +------------COMP_by:N-N-----------+-----APPOS-----+ +------MOD_ATT:N-N-----+ | | +MOD_AT+ +COMP_to:V+-OBJ:V-N-+-----SUBJ:V_PASS-N----+ | +MOD_AT+ | +MOD_ATT:N+ +MOD_AT+ | | | | | | | | | | | | | | | In a second approach , Hidden Markov models were used to identify promoters likely to be activated by GENEXXX , final GENEXXX , or a third sporulation transcription factor , final GENEXXX . MOD_ATT:N-N (GENEXXX,final) APPOS (GENEXXX,factor) MOD_ATT:N-N (GENEXXX,final) MOD_ATT:N-N (factor,sporulation) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (activated,promoters) MOD_ATT:N-N (factor,transcription) APPOS (promoters,GENEXXX) COMP_by:N-N (promoters,GENEXXX) OBJ:V-N (identify,promoters) COMP_in:V_PASS-N (used,approach) MOD_ATT:N-N (models,Markov) COMP_to:V_PASS-V (used,identify) PMID: 1382620-1 Sentence 3 Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . Parse 0 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 1 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 2 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (sigma,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 3 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) COMP_by:V-N (show,form) Parse 4 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 5 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (sigma,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 6 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) COMP_by:V-N (show,form) Parse 7 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 8 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 9 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (sigma,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 10 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 11 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 12 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 13 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 14 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 15 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 16 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 17 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 18 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 19 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 20 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 21 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 22 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 23 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 24 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 25 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 26 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (sigma,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 27 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 28 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V-N (show,form) Parse 29 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 30 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 31 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 32 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 33 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 34 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (sigma,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 35 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 36 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V-N (show,form) Parse 37 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 38 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 39 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 40 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 41 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 42 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 43 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 44 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (sigma,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 45 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 46 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 47 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 48 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 49 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 50 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 51 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 52 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 53 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 54 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 55 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 56 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 57 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 58 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 59 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 60 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 61 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 62 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) Parse 63 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 64 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 65 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (sigma,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 66 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 67 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 68 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 69 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 70 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 71 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) COMP_by:V-N (show,form) Parse 72 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 73 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 74 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 75 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 76 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 77 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (forms,GENEXXX) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 78 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 79 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 80 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 81 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 82 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 83 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 84 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 85 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 86 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (sigma,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 87 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 88 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 89 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 90 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 91 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 92 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 93 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 94 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,RNA) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 95 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 96 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 97 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 98 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 99 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 100 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 101 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 102 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 103 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 104 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 105 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 106 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 107 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 108 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 109 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) Parse 110 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 111 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 112 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 113 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 114 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 115 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 116 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V-N (show,form) Parse 117 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 118 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 119 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 120 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 121 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 122 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 123 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 124 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 125 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 126 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 127 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 128 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 129 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 130 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 131 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 132 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 133 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,forms) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 134 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 135 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 136 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 137 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 138 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 139 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 140 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 141 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 142 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 143 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 144 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 145 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 146 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 147 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 148 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 149 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 150 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 151 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 152 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,RNA) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 153 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 154 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 155 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 156 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 157 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 158 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | | | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 159 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 160 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 161 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 162 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 163 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 164 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 165 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) COMP_of:N-N (form,A) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (sigma,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 166 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 167 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 168 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 169 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 170 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 171 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 172 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 173 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 174 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:V-N (show,form) Parse 175 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 176 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 177 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 178 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 179 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 180 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 181 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 182 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 183 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 184 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 185 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 186 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 187 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 188 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 189 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 190 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 191 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 192 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) Parse 193 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 194 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 195 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 196 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 197 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 198 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 199 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) Parse 200 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 201 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 202 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 203 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 204 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 205 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 206 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 207 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 208 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 209 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 210 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 211 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 212 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 213 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 214 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 215 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 216 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 217 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 218 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 219 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 220 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 221 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 222 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 223 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 224 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 225 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 226 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 227 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 228 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 229 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 230 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 231 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 232 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 233 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 234 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 235 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 236 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 237 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 238 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 239 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 240 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 241 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 242 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 243 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 244 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 245 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 246 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +--------------COMP_of:N-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | | | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 247 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 248 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 249 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 250 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 251 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 252 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 253 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 254 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 255 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 256 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 257 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 258 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 259 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 260 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 261 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 262 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 263 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 264 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 265 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | | | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 266 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 267 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 268 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 269 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 270 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 271 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 272 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 273 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 274 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 275 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 276 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 277 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 278 +------------------------OBJ:V-N------------------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 279 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 280 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 281 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 282 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 283 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 284 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 285 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 286 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 287 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 288 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 289 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 290 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 291 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 292 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 293 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 294 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 295 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 296 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 297 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 298 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 299 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 300 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 301 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 302 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 303 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 304 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 305 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 306 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 307 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 308 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 309 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 310 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 311 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) Parse 312 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 313 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 314 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 315 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) Parse 316 +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 317 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 318 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 319 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 320 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 321 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 322 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 323 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 324 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) Parse 325 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 326 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 327 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 328 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 329 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) Parse 330 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 331 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 332 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 333 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 334 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 335 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) MOD_ATT:N-ADJ (form,vegetative) Parse 336 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 337 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) Parse 338 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 339 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 340 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 341 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 342 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 343 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 344 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_by:N-N (region,form) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 345 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 346 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 347 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 348 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 349 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 350 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 351 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 352 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 353 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 354 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 355 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 356 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 357 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 358 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 359 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 360 +---------COMP_of:N-N---------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 361 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 362 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 363 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 364 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 365 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 366 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) Parse 367 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 368 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 369 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 370 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 371 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_of:N-N-----+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (minor,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V_PASS-N (recognized,forms) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 372 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 373 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 374 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 375 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 376 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 377 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 378 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 379 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 380 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 381 +------------------------OBJ:V-N------------------------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 382 +------------------------OBJ:V-N------------------------+ +--------------COMP_of:N-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 383 +---------COMP_of:N-N---------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 384 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 385 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 386 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 387 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 388 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 389 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 390 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 391 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 392 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 393 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 394 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 395 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 396 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 397 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 398 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 399 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 400 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:N-N (region,vegetative) Parse 401 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 402 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 403 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 404 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 405 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 406 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,RNA) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 407 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 408 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 409 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 410 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 411 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 412 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 413 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 414 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | | | +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 415 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 416 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 417 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 418 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 419 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 420 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 421 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 422 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 423 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 424 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 425 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 426 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 427 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 428 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 429 +------------------------OBJ:V-N------------------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 430 +------------------------OBJ:V-N------------------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 431 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 432 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 433 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 434 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 435 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 436 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 437 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 438 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 439 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 440 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 441 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:N-N (region,vegetative) Parse 442 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 443 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 444 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 445 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 446 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 447 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:N-N (region,vegetative) Parse 448 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 449 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 450 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 451 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 452 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 453 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 454 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 455 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 456 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 457 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 458 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 459 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 460 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 461 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 462 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 463 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 464 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 465 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 466 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 467 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 468 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 469 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 470 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) Parse 471 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 472 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (forms,minor) Parse 473 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 474 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 475 +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 476 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (form,vegetative) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) Parse 477 +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 478 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 479 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 480 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 481 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 482 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 483 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 484 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 485 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 486 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 487 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 488 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 489 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 490 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 491 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 492 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 493 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 494 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 495 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 496 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 497 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 498 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,RNA) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 499 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 500 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 501 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 502 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (forms,minor) Parse 503 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 504 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 505 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 506 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 507 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 508 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 509 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 510 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 511 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 512 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 513 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 514 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 515 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 516 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 517 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 518 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 519 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 520 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 521 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 522 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 523 +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 524 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 525 +---------COMP_of:N-N---------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 526 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 527 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 528 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 529 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 530 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 531 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 532 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 533 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 534 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 535 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 536 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 537 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 538 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 539 +--------------COMP_by:V_PASS-N-------------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 540 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 541 +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 542 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 543 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +--------------COMP_of:N-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 544 +---------COMP_of:N-N---------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 545 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 546 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 547 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 548 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 549 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 550 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 551 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 552 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 553 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 554 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 555 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 556 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 557 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 558 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 559 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 560 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 561 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 562 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 563 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 564 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 565 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 566 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 567 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 568 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 569 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 570 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 571 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 572 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 573 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 574 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 575 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 576 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 577 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 578 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 579 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 580 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 581 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 582 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 583 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 584 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 585 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 586 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 587 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 588 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 589 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 590 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 591 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 592 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 593 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 594 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 595 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 596 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 597 +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 598 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 599 +------------------------OBJ:V-N------------------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 600 +---------COMP_of:N-N---------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 601 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 602 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 603 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 604 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 605 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 606 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 607 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 608 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 609 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 610 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 611 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 612 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 613 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 614 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 615 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 616 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 617 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 618 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 619 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 620 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 621 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 622 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 623 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 624 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 625 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 626 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 627 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,RNA) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 628 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 629 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 630 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 631 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 632 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 633 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 634 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 635 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 636 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 637 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 638 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 639 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 640 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 641 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 642 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 643 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 644 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 645 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 646 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 647 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 648 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 649 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 650 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 651 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) OBJ:V-N (recognized,form) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 652 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 653 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) OBJ:V-N (recognized,form) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 654 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 655 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) OBJ:V-N (recognized,A) MOD_ATT:N-ADJ (form,vegetative) Parse 656 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (recognized,forms) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 657 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 658 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 659 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 660 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 661 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 662 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 663 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 664 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 665 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (minor,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 666 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 667 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 668 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 669 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 670 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) Parse 671 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 672 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 673 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 674 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) Parse 675 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 676 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) Parse 677 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) Parse 678 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 679 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 680 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 681 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 682 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 683 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 684 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 685 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 686 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 687 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 688 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 689 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 690 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 691 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 692 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 693 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 694 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 695 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 696 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 697 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 698 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 699 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 700 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 701 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 702 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 703 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 704 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 705 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 706 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 707 +--------------COMP_by:V_PASS-N-------------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 708 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) OBJ:V-N (recognized,form) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 709 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 710 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) OBJ:V-N (recognized,form) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 711 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 712 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 713 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) OBJ:V-N (recognized,A) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 714 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +--------------COMP_of:N-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 715 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 716 +---------COMP_of:N-N---------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 717 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 718 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 719 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 720 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 721 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 722 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 723 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 724 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 725 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 726 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 727 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 728 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 729 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 730 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 731 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 732 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 733 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 734 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 735 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 736 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 737 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 738 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 739 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 740 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 741 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 742 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (region,E) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 743 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 744 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 745 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (region,E) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 746 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 747 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 748 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 749 +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 750 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) OBJ:V-N (recognized,form) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 751 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 752 +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 753 +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 754 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) OBJ:V-N (recognized,A) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 755 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 756 +---------COMP_of:N-N---------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 757 +---------COMP_of:N-N---------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 758 +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (region,A) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 759 +----------------------------COMP_by:V-N----------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 760 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) COMP_by:N-N (region,vegetative) Parse 761 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 762 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 763 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 764 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 765 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 766 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 767 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 768 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 769 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 770 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 771 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 772 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 773 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 774 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 775 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 776 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 777 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 778 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (region,RNA) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 779 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 780 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 781 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 782 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 783 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) OBJ:V-N (recognized,form) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 784 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) OBJ:V-N (recognized,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 785 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 786 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 787 +----------------------------COMP_by:V-N----------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 788 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 789 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 790 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 791 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 792 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 793 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:N-N (region,vegetative) Parse 794 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) Parse 795 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) Parse 796 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 797 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 798 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 799 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) Parse 800 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 801 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 802 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 803 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 804 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 805 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 806 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 807 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 808 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (region,E) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 809 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 810 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,RNA) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 811 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 812 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 813 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 814 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 815 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 816 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 817 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 818 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) Parse 819 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 820 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (region,E) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 821 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) Parse 822 +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) OBJ:V-N (recognized,form) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 823 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 824 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 825 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 826 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 827 +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+---------------------------------COMP_of:N-N---------------------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 828 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 829 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_of:N-N (region,A) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_by:V_PASS-N (recognized,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 830 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 831 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 832 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 833 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 834 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 835 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 836 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 837 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 838 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 839 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 840 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 841 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 842 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 843 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 844 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 845 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 846 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 847 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) OBJ:V-N (recognized,form) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 848 +------OBJ:V-N------+------------------COMP_by:N-N------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 849 +------------------------OBJ:V-N------------------------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) OBJ:V-N (recognized,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 850 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 851 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 852 +----------------------------COMP_by:V-N----------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 853 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 854 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 855 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 856 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 857 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 858 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 859 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 860 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 861 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 862 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 863 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 864 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 865 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 866 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 867 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (region,E) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 868 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 869 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 870 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 871 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+----------------------COMP_of:N-N----------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 872 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+--------------------------COMP_of:N-N-------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 873 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 874 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (region,E) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 875 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 876 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 877 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 878 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (region,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 879 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (region,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 880 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (region,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 881 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 882 +--------------COMP_by:V_PASS-N-------------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) Parse 883 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) OBJ:V-N (recognized,form) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) Parse 884 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) OBJ:V-N (recognized,form) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) Parse 885 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 886 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) COMP_of:N-N (form,E) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 887 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 888 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 889 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 890 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:N-N (region,vegetative) Parse 891 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 892 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 893 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 894 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 895 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 896 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 897 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (region,E) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 898 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 899 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 900 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 901 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 902 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 903 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 904 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 905 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 906 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 907 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +--------------COMP_of:N-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) COMP_of:N-N (GENEXXX,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 908 +------------------------OBJ:V-N------------------------+ +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,E) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 909 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 910 +---------------------------------COMP_of:N-N---------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 911 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 912 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ | +---MOD_ATT:N-N---+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 913 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 914 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 915 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 916 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 917 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 918 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (region,E) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 919 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 920 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,RNA) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 921 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 922 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_of:N-N (region,E) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 923 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 924 +------------------------OBJ:V-N------------------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (minor,GENEXXX) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) COMP_of:N-N (form,E) OBJ:V-N (recognized,A) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 925 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 926 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 927 +---------------------------------COMP_of:N-N---------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_of:N-N (region,A) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:N-N (region,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 928 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 929 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 930 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 931 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 932 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 933 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 934 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 935 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 936 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 937 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 938 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 939 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+COMP_of+ | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (form,RNA) OBJ:V-N (show,A) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 940 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 941 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (region,E) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 942 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 943 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 944 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) SUBJ:V-N (be,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) OBJ:V-N (recognized,A) MOD_ATT:N-ADJ (form,vegetative) Parse 945 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 946 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 947 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 948 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_of:N-N (region,E) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 949 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 950 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 951 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 952 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ +---MOD_ATT:N-N---+ +--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (region,E) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (minor,GENEXXX) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 953 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 954 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ +------MOD_ATT:N-N------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (region,E) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 955 +--------------COMP_by:V_PASS-N-------------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) OBJ:V-N (recognized,form) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 956 +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) OBJ:V-N (recognized,form) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 957 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +--------------COMP_of:N-N-------------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) OBJ:V-N (recognized,A) COMP_of:N-N (GENEXXX,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_by:V-N (recognized,form) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 958 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 959 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 960 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 961 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:N-N (region,vegetative) COMP_by:V_PASS-N (recognized,forms) Parse 962 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) COMP_of:N-N (GENEXXX,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 963 +------------------------------OBJ:V-N------------------------------+---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 964 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 965 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) Parse 966 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 967 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 968 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 969 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (region,E) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) SUBJ:V-N (be,region) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 970 +---------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+---------OBJ:V-N---------+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +---COMP_by:V-N---+ | | | +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) OBJ:V-N (recognized,form) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) SUBJ:V-N (be,region) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 971 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ +-COMP_by:V_PASS-N+ | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) COMP_by:V_PASS-N (recognized,vegetative) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 972 +------------------------------OBJ:V-N------------------------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 973 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 974 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_by:V_PASS-N (recognized,form) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-N (region,-35) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 975 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 976 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 977 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-N (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 978 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +--COMP_of:N-N-+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (form,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 979 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+------------------COMP_by:N-N------------------+ | | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+----SUBJ:V_PASS-N----+ +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) COMP_by:N-N (region,form) COMP_of:N-N (region,E) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 980 +--------------COMP_by:V_PASS-N-------------+ +------------------------OBJ:V-N------------------------+ | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+-------SUBJ:V-N------+-------COMP_by:V-N-------+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (recognized,region) COMP_by:V-N (recognized,form) MOD_ATT:N-N (region,-10) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) OBJ:V-N (recognized,A) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 981 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 982 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 983 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 984 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+-----------------------------COMP_of:N-N-----------------------------+ | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+ | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ | | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_of:N-N (region,E) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 985 +------------------------------OBJ:V-N------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+--------------COMP_by:N-N--------------+ +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) COMP_by:N-N (region,vegetative) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 986 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) COMP_of:N-N (form,E) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 987 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 988 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +------OBJ:V-N------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+--------------COMP_by:V_PASS-N-------------+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ +MOD_AT+MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (region,-10) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (minor,GENEXXX) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-N (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 989 +---------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (region,E) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 990 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+-----COMP_by:V_PASS-N----+-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) SUBJ:V_PASS-N (recognized,sequences) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) COMP_by:V_PASS-N (recognized,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 991 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) COMP_from:N-N (sequences,P2) COMP_by:N-N (region,form) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 992 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ +---------COMP_of:N-N---------+ +------OBJ:V-N------+ | | +---MOD_ATT:N-N---+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | | | +MOD+MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (show,form) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 993 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +------MOD_ATT:N-N------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+ | | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) COMP_of:N-N (forms,polymerase) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 994 +---------------------------------------------OBJ:V-N---------------------------------------------+ +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,E) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 995 +------------------------------OBJ:V-N------------------------------+ +------------------------COMP_by:V-N------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | +---------COMP_of:N-N---------+ | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +MOD_ATT:N-+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | | | +MOD_AT+ +MOD+MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (form,A) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (region,-10) COMP_by:V-N (show,vegetative) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (sigma,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) Parse 996 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | | | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +----------SUBJ:V_PASS-N----------+--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) SUBJ:V_PASS-N (recognized,sequences) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 997 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ | +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +--------SUBJ:V-N-------+ | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (A,sigma) SUBJ:V-N (be,region) MOD_ATT:N-N (region,-10) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) SUBJ:V_PASS-N (recognized,sequences) COMP_from:N-N (sequences,P2) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) Parse 998 +---------------------------------------------OBJ:V-N---------------------------------------------+ +------OBJ:V-N------+------------------COMP_by:N-N------------------+ | +--------------COMP_by:V_PASS-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) COMP_by:N-N (region,form) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (region,-10) MOD_ATT:N-N (A,sigma) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) SUBJ:V-N (be,region) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (forms,polymerase) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) MOD_ATT:N-ADJ (forms,minor) COMP_of:N-N (form,E) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) Parse 999 +---------------------------------------------OBJ:V-N---------------------------------------------+ +----------------------------COMP_by:V-N----------------------------+ | +--------------COMP_by:V_PASS-N-------------+ +------OBJ:V-N------+ | | | +--------------COMP_of:N-N-------------+ +--------SUBJ:V-N-------+ +-MOD_ATT:N-N+----SUBJ:V_PASS-N----+ +-----COMP_of:N-N-----+ | +----------SUBJ:V_PASS-N----------+ | +-MOD_ATT:N-N+--COMP_of:N-N-+ +---COMP_from:N-N---+ | | +MOD_+---SUBJ:V-N---+ | +MOD_ATT+ +MOD_AT+MOD_AT+ +MOD+ +---COMP_from:N-N---+ +--COMP_by:V_PASS-N-+ | +MOD_A+ +MOD_AT+ | | | | | | | | | | | | | | | | | | | | | | | | Sequences upstream from P1 show a -35 and -10 region which may be recognized by the vegetative form of RNA polymerase E sigma A , whereas sequences upstream from P2 may be recognized by either GENEXXX or GENEXXX minor forms of RNA polymerase . COMP_by:V_PASS-N (recognized,GENEXXX) COMP_of:N-N (forms,polymerase) MOD_ATT:N-N (forms,GENEXXX) SUBJ:V-N (show,Sequences) MOD_ATT:N-N (E,polymerase) MOD_ATT:N-N (region,-10) SUBJ:V_PASS-N (recognized,sequences) MOD_ATT:N-N (A,sigma) COMP_of:N-N (GENEXXX,polymerase) OBJ:V-N (show,region) COMP_from:N-N (Sequences,P1) OBJ:V-N (show,A) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (region,-35) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (be,region) SUBJ:V_PASS-N (recognized,region) COMP_from:N-N (sequences,P2) COMP_of:N-N (form,E) MOD_ATT:N-ADJ (forms,minor) COMP_by:V_PASS-N (recognized,forms) MOD_ATT:N-ADJ (form,vegetative) COMP_by:V-N (show,form) PMID: 1396690-1 Sentence 4 The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . Parse 0 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 1 +------------------------------------------COMP_for:V-N------------------------------------------+ | +---------MOD_ATT:N-N---------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ +-------------------COMP_to:V-N------------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 2 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +----------------------------------SUBJ:V-N---------------------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 3 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+-------------------COMP_to:V-N------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 4 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+-------------------COMP_to:V-N------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 5 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ +-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 6 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ | +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) COMP_to:V-N (showed,sequences) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 7 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 8 +------------------COMP_for:N-N-----------------+ | +---------MOD_ATT:N-N---------+ +----------------------------------SUBJ:V-N---------------------------------+-------------------COMP_to:V-N------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ | +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) COMP_to:V-N (showed,sequences) SUBJ:V-N (showed,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 9 +------------------COMP_for:N-N-----------------+ | +-------MOD_ATT:N-N-------+ | +----------------------------------SUBJ:V-N---------------------------------+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 10 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 11 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 12 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ +-------------------COMP_to:V-N------------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 13 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ | | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 14 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ | | +---------MOD_ATT:N-N---------+ +----------------------------------SUBJ:V-N---------------------------------+ | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ +-------------------COMP_to:V-N------------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 15 +------------------------------------------COMP_for:V-N------------------------------------------+ | +---------MOD_ATT:N-N---------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | | +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 16 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 17 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 18 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 19 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +----------------------------------SUBJ:V-N---------------------------------+---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ | +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) SUBJ:V-N (showed,initiation) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 20 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +----------------------------------SUBJ:V-N---------------------------------+---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 21 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 22 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | | +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 23 +------------------COMP_for:N-N-----------------+ | +---------MOD_ATT:N-N---------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ | | +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) SUBJ:V-N (showed,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 24 +--------------------------------------COMP_for:N-N-------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 25 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 26 +--------------------------------------COMP_for:N-N-------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 27 +--------------------------------------COMP_for:N-N-------------------------------------+ | +---------MOD_ATT:N-N---------+ +----------------------------------SUBJ:V-N---------------------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ | +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 28 +--------------------------------------COMP_for:N-N-------------------------------------+ | +-------MOD_ATT:N-N-------+ | +----------------------------------SUBJ:V-N---------------------------------+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 29 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+---------------------OBJ:V-N--------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ +-------------COMP_to:V-N-------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 30 +--------------------------------------COMP_for:N-N-------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 31 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | +---------COMP_to:N-N--------+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) COMP_to:N-N (similarity,recognition) COMP_by:ADJ-N (determined,S1) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 32 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ +-------------COMP_to:V-N-------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 33 +--------------------------------------COMP_for:N-N-------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 34 +--------------------------------------COMP_for:N-N-------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ | | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 35 +--------------------------------------COMP_for:N-N-------------------------------------+ | +-----------MOD_ATT:N-N-----------+ | | +---------MOD_ATT:N-N---------+ +----------------------------------SUBJ:V-N---------------------------------+ +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ | | +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) SUBJ:V-N (showed,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 36 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +----------------------------------SUBJ:V-N---------------------------------+---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ +-------------COMP_to:V-N-------------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,E) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 37 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ | | +---------MOD_ATT:N-N---------+ +----------------------------------SUBJ:V-N---------------------------------+---------------------OBJ:V-N--------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ +-------------COMP_to:V-N-------------+ | | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 38 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+---------------------OBJ:V-N--------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ +-------------COMP_to:V-N-------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 39 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +-COMP_by:V_PASS-N-+ +-------------COMP_to:V-N-------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ:V_PASS+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) COMP_by:V_PASS-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 40 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +---COMP_by:ADJ-N--+ +-------------COMP_to:V-N-------------+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +MOD_PRED:N-+ +MOD_A+SUBJ:+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,initiation) COMP_by:ADJ-N (determined,S1) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) Parse 41 +------------------------------------------COMP_for:V-N------------------------------------------+ +----COMP_by:V_PASS-N----+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 42 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +-------------------COMP_to:V-N------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,region) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) Parse 43 +------------------------------------------COMP_for:V-N------------------------------------------+ +----COMP_by:V_PASS-N----+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) SUBJ:V-N (showed,region) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 44 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) Parse 45 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +----COMP_by:V_PASS-N----+ +-------------------COMP_to:V-N------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,E) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (sequences,recognition) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 46 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +-------------------COMP_to:V-N------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 47 +--------------COMP_by:ADJ-N-------------+ +------------------------------------------COMP_for:V-N------------------------------------------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:ADJ-N (determined,mapping) Parse 48 +------------------------------------------COMP_for:V-N------------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+-------------------COMP_to:V-N------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 49 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------------COMP_by:V_PASS-N------------+ | | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) COMP_by:V_PASS-N (determined,promoter) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) Parse 50 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 51 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+-------------------COMP_to:V-N------------------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 52 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+-------------------COMP_to:V-N------------------+ | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) Parse 53 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | +------------COMP_by:V_PASS-N------------+ | | +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) COMP_to:V_PASS-N (determined,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) COMP_for:V_PASS-N (determined,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (mapping,nuclease) Parse 54 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +----------------------------------------------COMP_to:ADJ-N---------------------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) COMP_to:ADJ-N (determined,sequences) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (mapping,nuclease) COMP_by:ADJ-N (determined,mapping) Parse 55 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +----------------------------------------------COMP_to:ADJ-N---------------------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) COMP_to:ADJ-N (determined,sequences) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:ADJ-N (determined,mapping) Parse 56 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +----------------------------------------------COMP_to:ADJ-N---------------------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) COMP_to:ADJ-N (determined,sequences) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:ADJ-N (determined,mapping) Parse 57 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +----------------------------------------------COMP_to:ADJ-N---------------------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) COMP_to:ADJ-N (determined,sequences) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:ADJ-N (determined,mapping) Parse 58 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ +-----------MOD_ATT:N-N-----------+ +------------COMP_by:V_PASS-N------------+ | | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_by:V_PASS-N (determined,promoter) COMP_to:V_PASS-N (determined,sequences) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (mapping,nuclease) Parse 59 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | +------------COMP_by:V_PASS-N------------+ | | +----COMP_by:V_PASS-N----+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:V_PASS-N (determined,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:V_PASS-N (determined,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (mapping,nuclease) Parse 60 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +----------------------------------------------COMP_to:ADJ-N---------------------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) COMP_to:ADJ-N (determined,sequences) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (mapping,nuclease) COMP_by:ADJ-N (determined,mapping) Parse 61 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +----------------------------------------------COMP_to:ADJ-N---------------------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | | | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:ADJ-N (determined,sequences) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,nuclease) COMP_by:ADJ-N (determined,mapping) Parse 62 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+ | +-------------------COMP_to:V-N------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 63 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | | +-MOD_ATT:N-N-+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 64 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | +-------------------COMP_to:V-N------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:ADJ-N (determined,mapping) Parse 65 +------------------COMP_for:N-N-----------------+ | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+ +-------------------COMP_to:V-N------------------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) SUBJ:V-N (showed,region) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (region,promoter) Parse 66 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 67 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +----COMP_by:V_PASS-N----+ | +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,E) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 68 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (polymerases,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) Parse 69 +------------COMP_by:V_PASS-N------------+ +------------------------------------------COMP_for:V-N------------------------------------------+ +----COMP_by:V_PASS-N----+ | | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 70 +------------------------------------------COMP_for:V-N------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 71 +------------------------------------------COMP_for:V-N------------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | | | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 72 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------------COMP_by:V_PASS-N------------+ | | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+ | | | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) Parse 73 +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 74 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 75 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +-------------------COMP_to:V-N------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 76 +------------------------------------------COMP_for:V-N------------------------------------------+ +------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 77 +------------------------------------------COMP_for:V-N------------------------------------------+ | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+ | +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (region,promoter) Parse 78 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 79 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ | | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 80 +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 81 +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 82 +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 83 +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 84 +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 85 +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 86 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+-------------------COMP_to:V-N------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,E) COMP_by:ADJ-N (determined,mapping) Parse 87 +------------COMP_by:V_PASS-N------------+ +------------------------------------------COMP_for:V-N------------------------------------------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 88 +--------------COMP_by:ADJ-N-------------+ +------------------------------------------COMP_for:V-N------------------------------------------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:ADJ-N (determined,mapping) Parse 89 +------------------------------------------COMP_for:V-N------------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) Parse 90 +------------------------------------------COMP_for:V-N------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:ADJ-N (determined,mapping) Parse 91 +----------------------------------------------COMP_to:ADJ-N---------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) COMP_to:ADJ-N (determined,sequences) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 92 +------------------------------------------COMP_for:V-N------------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 93 +---------------COMP_by:V-N--------------+ +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | +-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 94 +------------------------------------------COMP_for:V-N------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:ADJ-N (determined,mapping) Parse 95 +----------------------------------------------COMP_to:ADJ-N---------------------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) COMP_to:ADJ-N (determined,sequences) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 96 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 97 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 98 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 99 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +---------------COMP_by:V-N--------------+ | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------------COMP_to:V-N------------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 100 +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:V_PASS-N (determined,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 101 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) Parse 102 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +-------MOD_ATT:N-N-------+ | +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (RNA,E) Parse 103 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (RNA,E) COMP_by:ADJ-N (determined,mapping) Parse 104 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 105 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 106 +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+ +-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ +-----------SUBJ:V-N-----------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) COMP_by:V-N (determined,S1) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) OBJ:V-N (was,initiation) Parse 107 +----------------------------------------------COMP_to:ADJ-N---------------------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) COMP_to:ADJ-N (determined,sequences) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 108 +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | | | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) COMP_to:V_PASS-N (determined,sequences) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (RNA,GENEXXX) Parse 109 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | | +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 110 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 111 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ +-----------MOD_ATT:N-N-----------+ +--------------COMP_by:ADJ-N-------------+ | | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) MOD_PRED:N-ADJ (site,determined) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 112 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +----COMP_by:V_PASS-N----+ | +--------------COMP_to:N-N--------------+ +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 113 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +----COMP_by:V_PASS-N----+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 114 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 115 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 116 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 117 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 118 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_PRED:N-ADJ (site,determined) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 119 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 120 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +-MOD_ATT:N-N-+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 121 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------------COMP_by:V_PASS-N------------+ | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+ | +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) Parse 122 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 123 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------------COMP_by:V_PASS-N------------+ | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) Parse 124 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 125 +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+ +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 126 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 127 +------------------COMP_for:N-N-----------------+ | +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 128 +--------------------------------------COMP_for:N-N-------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (RNA,sigma) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 129 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 130 +--------------------------------------COMP_for:N-N-------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 131 +------------------------------------------COMP_for:V-N------------------------------------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | | +-MOD_ATT:N-N-+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 132 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 133 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_by:ADJ-N (determined,mapping) Parse 134 +------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | +-------------------COMP_to:V-N------------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_by:V_PASS-N (determined,mapping) Parse 135 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | | | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:ADJ-N (determined,mapping) Parse 136 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | +-------------------COMP_to:V-N------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:ADJ-N (determined,mapping) Parse 137 +--------------COMP_by:ADJ-N-------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------COMP_by:ADJ-N-----+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 138 +------------------------------------------COMP_for:V-N------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+ | | +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 139 +------------------------------------------COMP_for:V-N------------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | | | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 140 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +--------------COMP_by:ADJ-N-------------+ | | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | | | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 141 +------------------------------------------COMP_for:V-N------------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,GENEXXX) Parse 142 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------------COMP_by:V_PASS-N------------+ | | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+ | | +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) Parse 143 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:ADJ-N (determined,mapping) Parse 144 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | | +-MOD_ATT:N-N-+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 145 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | +-------------------COMP_to:V-N------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:ADJ-N (determined,mapping) Parse 146 +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 147 +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+ +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 148 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 149 +--------------------------------------COMP_for:N-N-------------------------------------+ +----COMP_by:V_PASS-N----+ +--------------COMP_to:N-N--------------+ +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 150 +--------------------------------------COMP_for:N-N-------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (RNA,sigma) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 151 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 152 +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 153 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,E) COMP_by:ADJ-N (determined,mapping) Parse 154 +---------------COMP_by:V-N--------------+ +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | +-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 155 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 156 +--------------COMP_by:ADJ-N-------------+ +--------------------------------------COMP_for:N-N-------------------------------------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:ADJ-N (determined,mapping) Parse 157 +--------------------------------------COMP_for:N-N-------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) Parse 158 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +--------------COMP_by:ADJ-N-------------+ | | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 159 +------------------COMP_for:N-N-----------------+ +---------------COMP_by:V-N--------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (was,initiation) Parse 160 +--------------------------------------COMP_for:N-N-------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +-------MOD_ATT:N-N-------+ | +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (RNA,E) Parse 161 +--------------------------------------COMP_for:N-N-------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 162 +--------------------------------------COMP_for:N-N-------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:ADJ-N (determined,mapping) Parse 163 +--------------------------------------COMP_for:N-N-------------------------------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) OBJ:V-N (showed,mapping) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 164 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+ +-------------------COMP_to:V-N------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (was,initiation) Parse 165 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,region) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (was,initiation) Parse 166 +----------------------------------COMP_to:N-N----------------------------------+ +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 167 +----------------------------------COMP_to:N-N----------------------------------+ +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 168 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 169 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +------SUBJ:V-N-----+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ +-----------SUBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) OBJ:V-N (was,initiation) Parse 170 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ +-----------SUBJ:V-N-----------+ +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) OBJ:V-N (was,initiation) Parse 171 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+ | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ +-----------SUBJ:V-N-----------+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) OBJ:V-N (was,initiation) Parse 172 +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+ +---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sigma,E) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (region,promoter) Parse 173 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 174 +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+ | +--------------COMP_to:N-N--------------+ +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 175 +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+ | +--------------COMP_to:N-N--------------+ +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sigma,E) Parse 176 +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+ | +--------------COMP_to:N-N--------------+ +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sigma,E) Parse 177 +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sigma,E) Parse 178 +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+ | | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 179 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 180 +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 181 +--------------COMP_by:ADJ-N-------------+ +--------------------------------------COMP_for:N-N-------------------------------------+ +------COMP_by:ADJ-N-----+ | | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 182 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 183 +------------COMP_by:V_PASS-N------------+ +--------------------------------------COMP_for:N-N-------------------------------------+ +----COMP_by:V_PASS-N----+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 184 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:ADJ-N (determined,mapping) Parse 185 +--------------------------------------COMP_for:N-N-------------------------------------+ +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 186 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_to:N-N (promoter,sequences) COMP_by:ADJ-N (determined,mapping) Parse 187 +--------------COMP_by:ADJ-N-------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------COMP_by:ADJ-N-----+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 188 +------------COMP_by:V_PASS-N------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +----COMP_by:V_PASS-N----+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 189 +------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) COMP_to:N-N (promoter,sequences) Parse 190 +------------COMP_by:V_PASS-N------------+ +--------------------------------------COMP_for:N-N-------------------------------------+ +----COMP_by:V_PASS-N----+ | +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 191 +------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) COMP_to:N-N (promoter,sequences) Parse 192 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +--------------COMP_by:ADJ-N-------------+ | | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) OBJ:V-N (showed,promoter) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) COMP_by:ADJ-N (determined,mapping) Parse 193 +------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) COMP_to:N-N (promoter,sequences) Parse 194 +------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) Parse 195 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 196 +------------COMP_by:V_PASS-N------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +----COMP_by:V_PASS-N----+ | +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 197 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,sigma) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 198 +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) SUBJ:V-N (showed,region) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) COMP_by:ADJ-N (determined,mapping) Parse 199 +----------------------------------SUBJ:V-N---------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ +------------------------------------------COMP_for:V-N------------------------------------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 200 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 201 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 202 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ | +----------------COMP_by:V_PASS-N----------------+ | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------------COMP_to:V-N------------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_by:V_PASS-N (determined,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 203 +---------------COMP_by:V-N--------------+ +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 204 +---------------COMP_by:V-N--------------+ +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | +---------------------OBJ:V-N--------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +---------COMP_to:N-N--------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:V-N (determined,promoter) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 205 +------------------COMP_for:N-N-----------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+-------------------COMP_to:V-N------------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (was,initiation) Parse 206 +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 207 +------------------COMP_for:N-N-----------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,region) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,similarity) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 208 +---------------COMP_by:V-N--------------+ +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | +---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------COMP_to:V-N-------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 209 +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,region) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (was,initiation) Parse 210 +--------------------------------------COMP_for:N-N-------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +---------------COMP_by:V-N--------------+ | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 211 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (recognition,conserved) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 212 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (site,transcriptional) MOD_ATT:N-ADJ (recognition,conserved) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 213 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+ | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,similarity) OBJ:V-N (was,initiation) Parse 214 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:V_PASS-N (determined,polymerases) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (recognition,conserved) COMP_by:V_PASS-N (determined,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,RNA) Parse 215 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | +-------MOD_ATT:N-N-------+ | +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) COMP_for:V_PASS-N (determined,polymerases) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (recognition,conserved) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (RNA,E) Parse 216 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,similarity) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (RNA,E) COMP_by:ADJ-N (determined,mapping) Parse 217 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) COMP_for:V_PASS-N (determined,polymerases) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (site,transcriptional) MOD_ATT:N-ADJ (recognition,conserved) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 218 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,similarity) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 219 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:V_PASS-N (determined,polymerases) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (site,transcriptional) MOD_ATT:N-ADJ (recognition,conserved) COMP_by:V_PASS-N (determined,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 220 +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+ +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ +-----------SUBJ:V-N-----------+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) OBJ:V-N (was,initiation) Parse 221 +--------------------------------------COMP_for:N-N-------------------------------------+ +------SUBJ:V-N-----+ +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ +-----------SUBJ:V-N-----------+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) OBJ:V-N (was,initiation) Parse 222 +------------------COMP_for:N-N-----------------+ | +-------MOD_ATT:N-N-------+ | +------SUBJ:V-N-----+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) OBJ:V-N (was,initiation) Parse 223 +--------------------------------------COMP_for:N-N-------------------------------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+ +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ +-----------SUBJ:V-N-----------+ | +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) OBJ:V-N (was,initiation) Parse 224 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +------SUBJ:V-N-----+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) OBJ:V-N (was,initiation) Parse 225 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-------MOD_ATT:N-N-------+ | +------SUBJ:V-N-----+ | +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) OBJ:V-N (was,initiation) Parse 226 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | | +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 227 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | | +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 228 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ +-----------SUBJ:V-N-----------+-------------COMP_to:V-N-------------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) OBJ:V-N (was,initiation) Parse 229 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | | +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 230 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | | +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:V_PASS-N (determined,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 231 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+ +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (similarity,recognition) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (was,initiation) Parse 232 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+ | +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+ | +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (was,initiation) Parse 233 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | | +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 234 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 235 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:V_PASS-N (determined,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) Parse 236 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ +-----------MOD_ATT:N-N-----------+ +------------COMP_by:V_PASS-N------------+ | | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | | +-MOD_ATT:N-N-+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:V_PASS-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) Parse 237 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_for:ADJ-N (determined,polymerases) COMP_by:ADJ-N (determined,mapping) Parse 238 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ +-------------------COMP_to:V-N------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 239 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +-------MOD_ATT:N-N-------+ | +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) Parse 240 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +-------MOD_ATT:N-N-------+ | +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ +-------------------COMP_to:V-N------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) Parse 241 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 242 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ +-------------------COMP_to:V-N------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 243 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ +-------------------COMP_to:V-N------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 244 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ | +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 245 +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 246 +--------------COMP_by:ADJ-N-------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------COMP_by:ADJ-N-----+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 247 +------------COMP_by:V_PASS-N------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +----COMP_by:V_PASS-N----+ | +-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) COMP_by:V_PASS-N (determined,promoter) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 248 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 249 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+ | | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 250 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ | | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,GENEXXX) Parse 251 +----------------------------------SUBJ:V-N---------------------------------+ | +----------------COMP_by:V_PASS-N----------------+ | +------------------COMP_for:N-N-----------------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | +-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_by:V_PASS-N (determined,region) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_for:N-N (sequences,polymerases) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 252 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ | +----------------COMP_by:V_PASS-N----------------+ | | +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------------COMP_to:V-N------------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,similarity) COMP_by:V_PASS-N (determined,region) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_for:N-N (sequences,polymerases) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 253 +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) COMP_by:V-N (determined,S1) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 254 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 255 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 256 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ | +----------------COMP_by:V_PASS-N----------------+ | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +---------COMP_to:N-N--------+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_to:N-N (similarity,recognition) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_by:V_PASS-N (determined,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 257 +----------------------------------COMP_to:N-N----------------------------------+ +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 258 +----------------------------------COMP_to:N-N----------------------------------+ +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 259 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (was,initiation) Parse 260 +----------------------------------COMP_to:N-N----------------------------------+ +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 261 +--------------------------------------COMP_for:N-N-------------------------------------+ +------SUBJ:V-N-----+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 262 +------------------COMP_for:N-N-----------------+ +---------------COMP_by:V-N--------------+ | +-------MOD_ATT:N-N-------+ | +------SUBJ:V-N-----+-------COMP_by:V-N------+ | +---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------COMP_to:V-N-------------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:V-N (determined,promoter) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,E) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (was,initiation) Parse 263 +------------------COMP_for:N-N-----------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,region) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,similarity) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 264 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 265 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 266 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 267 +------------------COMP_for:N-N-----------------+ +---------------COMP_by:V-N--------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------COMP_to:V-N-------------+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (was,initiation) Parse 268 +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+-------------COMP_to:V-N-------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 269 +--------------------------------------COMP_for:N-N-------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (was,initiation) Parse 270 +--------------------------------------COMP_for:N-N-------------------------------------+ +------SUBJ:V-N-----+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,region) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,similarity) MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (was,initiation) Parse 271 +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,region) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (sigma,E) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (showed,similarity) MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (was,initiation) Parse 272 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,region) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (polymerases,A) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,similarity) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 273 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ +-----------------------------------------------COMP_to:V-N----------------------------------------------+ | +-----------------------------OBJ:V-N----------------------------+ | +-----------MOD_ATT:N-N-----------+ +---------------COMP_by:V-N--------------+ | | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_to:V-N (determined,sequences) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:V-N (determined,polymerases) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) SUBJ:V-N (determined,initiation) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (determined,similarity) OBJ:V-N (was,initiation) Parse 274 +----------------------------------COMP_to:N-N----------------------------------+ +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 275 +----------------------------------COMP_to:N-N----------------------------------+ +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 276 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,E) COMP_by:ADJ-N (determined,mapping) Parse 277 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-------MOD_ATT:N-N-------+ | +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,E) Parse 278 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 279 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_by:ADJ-N (determined,mapping) Parse 280 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 281 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) Parse 282 +--------------------------------------COMP_for:N-N-------------------------------------+ +------SUBJ:V-N-----+ +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 283 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ +-----------SUBJ:V-N-----------+-------------COMP_to:V-N-------------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) SUBJ:V-N (showed,mapping) OBJ:V-N (was,initiation) Parse 284 +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+-------------COMP_to:V-N-------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 285 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ +-----------------------------------------------COMP_to:V-N----------------------------------------------+ | +-----------------OBJ:V-N----------------+ | | +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_to:V-N (determined,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (determined,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (S1,nuclease) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 286 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ +-----------------------------------------------COMP_to:V-N----------------------------------------------+ | +-----------------OBJ:V-N----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (sequences,recognition) COMP_to:V-N (determined,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (determined,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 287 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 288 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ +-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 289 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ +-------------------COMP_to:V-N------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 290 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +--------------COMP_to:N-N--------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 291 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ +-------------------COMP_to:V-N------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 292 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ +---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_to:N-N (similarity,recognition) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 293 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 294 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_to:N-N (similarity,recognition) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 295 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ | +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ +---------------------OBJ:V-N--------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_to:N-N (similarity,recognition) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 296 +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | | +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 297 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +-------------------COMP_to:V-N------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | | +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) COMP_by:V-N (determined,S1) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 298 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 299 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | | +--------------COMP_to:N-N--------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 300 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ +-----------------OBJ:V-N----------------+ | +------SUBJ:V-N-----+---------OBJ:V-N--------+ | +-------------------COMP_to:V-N------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:V-N (determined,polymerases) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) COMP_by:V-N (determined,S1) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (S1,nuclease) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 301 +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) Parse 302 +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 303 +------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-------MOD_ATT:N-N-------+ | +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) COMP_to:N-N (promoter,sequences) Parse 304 +--------------COMP_by:ADJ-N-------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------COMP_by:ADJ-N-----+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 305 +------------COMP_by:V_PASS-N------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +----COMP_by:V_PASS-N----+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 306 +------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:ADJ-N (determined,mapping) Parse 307 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+ | | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) Parse 308 +--------------COMP_by:ADJ-N-------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 309 +--------------COMP_by:ADJ-N-------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) COMP_by:ADJ-N (determined,mapping) Parse 310 +------------COMP_by:V_PASS-N------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) Parse 311 +------------COMP_by:V_PASS-N------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) Parse 312 +------------COMP_by:V_PASS-N------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) Parse 313 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (recognition,conserved) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:ADJ-N (determined,mapping) Parse 314 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +-------MOD_ATT:N-N-------+ | +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (promoter,sequences) Parse 315 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (promoter,sequences) Parse 316 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------------COMP_by:V_PASS-N------------+ +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (promoter,sequences) Parse 317 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +--------------COMP_by:ADJ-N-------------+ +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (promoter,sequences) COMP_by:ADJ-N (determined,mapping) Parse 318 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +-----------------OBJ:V-N----------------+ | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | +-------------------COMP_to:V-N------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 319 +----------------------------------SUBJ:V-N---------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ | +------------------COMP_for:N-N-----------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 320 +----------------------------------SUBJ:V-N---------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ | +------------------COMP_for:N-N-----------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 321 +----------------------------------SUBJ:V-N---------------------------------+ +-----------------------------COMP_by:N-N----------------------------+ | +-----------------COMP_by:N-N----------------+ | | +------------------COMP_for:N-N-----------------+ +---SUBJ:V_PASS-N---+ | | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) COMP_by:N-N (initiation,region) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_for:N-N (sequences,polymerases) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 322 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ | +------------------COMP_by:ADJ-N-----------------+ | | +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 323 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ | +------------------COMP_by:ADJ-N-----------------+ | | +---------MOD_ATT:N-N---------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +---------------------OBJ:V-N--------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +---------COMP_to:N-N--------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) COMP_to:N-N (similarity,recognition) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 324 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 325 +----------------------------------SUBJ:V-N---------------------------------+ | +----------------COMP_by:V_PASS-N----------------+ | +--------------------------------------COMP_for:N-N-------------------------------------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | | +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_by:V_PASS-N (determined,region) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 326 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ | +------------------COMP_by:ADJ-N-----------------+ | | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 327 +----------------------------------SUBJ:V-N---------------------------------+ +--------------------------------------COMP_for:N-N-------------------------------------+ | +----------------COMP_by:V_PASS-N----------------+ | | +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) OBJ:V-N (showed,similarity) COMP_by:V_PASS-N (determined,region) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 328 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ | +------------------COMP_by:ADJ-N-----------------+ | | +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 329 +----------------------------------SUBJ:V-N---------------------------------+ +-----------------------------COMP_by:N-N----------------------------+ | +-----------------COMP_by:N-N----------------+ | +------------------------------------------COMP_for:V-N------------------------------------------+ +---SUBJ:V_PASS-N---+ | | | +--------------COMP_to:N-N--------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-ADJ (sequences,conserved) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) COMP_by:N-N (initiation,region) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 330 +----------------------------------SUBJ:V-N---------------------------------+ +--------------------------------------COMP_for:N-N-------------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ | | +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 331 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | | +---------COMP_to:N-N--------+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) COMP_to:N-N (similarity,recognition) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (was,initiation) Parse 332 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ | +---------MOD_ATT:N-N---------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +---------------------OBJ:V-N--------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------COMP_to:V-N-------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,GENEXXX) COMP_for:V-N (showed,polymerases) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 333 +--------------------------------------COMP_for:N-N-------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-----------MOD_ATT:N-N-----------+ | +------------------COMP_by:ADJ-N-----------------+ | | | +---------MOD_ATT:N-N---------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +--------------COMP_to:N-N--------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 334 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------COMP_to:V-N-------------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (RNA,E) COMP_for:V-N (showed,polymerases) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 335 +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+-------------COMP_to:V-N-------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 336 +-----------------OBJ:V-N----------------+ +------------------------------------------COMP_for:V-N------------------------------------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+------------OBJ:V-N-----------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) OBJ:V-N (was,initiation) Parse 337 +------------------COMP_for:N-N-----------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +-----------SUBJ:V-N-----------+-------------COMP_to:V-N-------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (showed,region) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,mapping) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (was,initiation) Parse 338 +-----------------------------------------------COMP_to:V-N----------------------------------------------+ +-----------------------------OBJ:V-N----------------------------+ | +---------------COMP_by:V-N--------------+ | +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) COMP_to:V-N (determined,sequences) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (determined,similarity) OBJ:V-N (was,initiation) Parse 339 +-----------------------------------------------COMP_to:V-N----------------------------------------------+ +-----------------------------OBJ:V-N----------------------------+ | +---------------COMP_by:V-N--------------+ | +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (polymerases,A) COMP_to:V-N (determined,sequences) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (determined,similarity) OBJ:V-N (was,initiation) Parse 340 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+ +---------------------OBJ:V-N--------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (showed,region) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (polymerases,A) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,similarity) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 341 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ +-----------------------------OBJ:V-N----------------------------+ | +---------------COMP_by:V-N--------------+ | | +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:V-N (determined,polymerases) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,similarity) OBJ:V-N (was,initiation) Parse 342 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (site,transcriptional) MOD_ATT:N-ADJ (recognition,conserved) MOD_PRED:N-ADJ (site,determined) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 343 +-----------------------------------------------COMP_to:V-N----------------------------------------------+ +-----------------------------OBJ:V-N----------------------------+ +------------------COMP_for:N-N-----------------+ +---------------COMP_by:V-N--------------+ | | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (polymerases,A) COMP_to:V-N (determined,sequences) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (determined,similarity) OBJ:V-N (was,initiation) Parse 344 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | | +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_for:V_PASS-N (determined,polymerases) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-ADJ (sequences,conserved) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 345 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +---------MOD_ATT:N-N---------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +-------MOD_ATT:N-N-------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-ADJ (sequences,conserved) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 346 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) COMP_for:V_PASS-N (determined,polymerases) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (recognition,conserved) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 347 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (site,transcriptional) MOD_ATT:N-ADJ (recognition,conserved) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 348 +--------------------------------------------------------------------COMP_for:V_PASS-N-------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) COMP_for:V_PASS-N (determined,polymerases) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (recognition,conserved) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 349 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (site,transcriptional) MOD_ATT:N-ADJ (recognition,conserved) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 350 +---------------------------------------------------------------------COMP_for:ADJ-N---------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------+ | | +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---------------COMP_to:N-N--------------------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (recognition,conserved) MOD_PRED:N-ADJ (site,determined) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) COMP_for:ADJ-N (determined,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 351 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ +-----------------------------OBJ:V-N----------------------------+ | +---------------COMP_by:V-N--------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:V-N (determined,polymerases) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (RNA,A) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) OBJ:V-N (determined,similarity) MOD_ATT:N-N (polymerases,RNA) OBJ:V-N (was,initiation) Parse 352 +-----------------------------------------------COMP_to:V-N----------------------------------------------+------------------COMP_for:N-N-----------------+ +-----------------OBJ:V-N----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) COMP_to:V-N (determined,sequences) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 353 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +-----------------OBJ:V-N----------------+ | +-------MOD_ATT:N-N-------+ | +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:V-N (determined,polymerases) COMP_to:N-N (mapping,sequences) OBJ:V-N (showed,similarity) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) Parse 354 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +-----------------OBJ:V-N----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:V-N (determined,polymerases) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,A) OBJ:V-N (showed,similarity) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) OBJ:V-N (was,initiation) Parse 355 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 356 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 357 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 358 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 359 +----------------------------------SUBJ:V-N---------------------------------+ +-----------------COMP_by:N-N----------------+ | +------------------COMP_for:N-N-----------------+ +---SUBJ:V_PASS-N---+ | +-------------------COMP_to:V-N------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 360 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 361 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +---------MOD_ATT:N-N---------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:N-N (similarity,recognition) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 362 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 363 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +----------------------------------SUBJ:V-N---------------------------------+ | | +---------MOD_ATT:N-N---------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 364 +--------------------------------------COMP_for:N-N-------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-------MOD_ATT:N-N-------+ | +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) Parse 365 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 366 +--------------------------------------COMP_for:N-N-------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +--------------COMP_to:N-N--------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 367 +------------------COMP_for:N-N-----------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 368 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ +-----------------COMP_by:N-N----------------+ | +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+ | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 369 +--------------------------------------COMP_for:N-N-------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N----+ | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) COMP_by:V_PASS-N (determined,mapping) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 370 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ +-----------------COMP_by:N-N----------------+ | +-------MOD_ATT:N-N-------+ | +---SUBJ:V_PASS-N---+ | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) Parse 371 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ +-----------------COMP_by:N-N----------------+ | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+ | | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 372 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ +-----------------COMP_by:N-N----------------+ | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+ | | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 373 +------------------------------------------COMP_for:V-N------------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ +-----------MOD_ATT:N-N-----------+ +-----------------COMP_by:N-N----------------+ | | +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+ | +---------------------OBJ:V-N--------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) COMP_to:N-N (similarity,recognition) COMP_for:V-N (showed,polymerases) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 374 +------------------COMP_for:N-N-----------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (sequences,recognition) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 375 +--------------------------------------COMP_for:N-N-------------------------------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (sigma,E) OBJ:V-N (was,initiation) Parse 376 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ +-----------------OBJ:V-N----------------+ | +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:V-N (determined,polymerases) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 377 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ +-----------------OBJ:V-N----------------+ +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:V-N (determined,polymerases) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 378 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +-----------------OBJ:V-N----------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:V-N (determined,polymerases) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 379 +-----------------OBJ:V-N----------------+--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 380 +------------------------------------------COMP_for:V-N------------------------------------------+ +-----------------OBJ:V-N----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 381 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +-----------------OBJ:V-N----------------+ +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+-------------------COMP_to:V-N------------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) SUBJ:V-N (was,site) COMP_to:V-N (showed,sequences) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 382 +------------------------------------------COMP_for:V-N------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +-----------------OBJ:V-N----------------+ | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) COMP_for:V-N (showed,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 383 +------------------COMP_for:N-N-----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 384 +----------------------------------SUBJ:V-N---------------------------------+ | +------------------COMP_by:ADJ-N-----------------+ | +------------------COMP_for:N-N-----------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +---------------------OBJ:V-N--------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------COMP_to:V-N-------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 385 +----------------------------------SUBJ:V-N---------------------------------+ +-----------------------------COMP_by:N-N----------------------------+ | +------------------COMP_for:N-N-----------------+ +-----------------COMP_by:N-N----------------+ | | | +-------MOD_ATT:N-N-------+ | +---SUBJ:V_PASS-N---+ | | | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) COMP_by:N-N (initiation,region) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) Parse 386 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ | +------------------COMP_by:ADJ-N-----------------+ | | +-----------MOD_ATT:N-N-----------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ | +---------------------OBJ:V-N--------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------COMP_to:V-N-------------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) COMP_by:ADJ-N (determined,region) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-N (polymerases,E) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 387 +----------------------------------COMP_to:N-N----------------------------------+ +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 388 +----------------------------------COMP_to:N-N----------------------------------+ +------------COMP_by:V_PASS-N------------+ +------------------COMP_for:N-N-----------------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 389 +----------------------------------COMP_to:N-N----------------------------------+ +--------------COMP_by:ADJ-N-------------+ +------------------COMP_for:N-N-----------------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 390 +------------------COMP_for:N-N-----------------+ +-----------------OBJ:V-N----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+------------OBJ:V-N-----------+ +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) OBJ:V-N (was,initiation) Parse 391 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +---------MOD_ATT:N-N---------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,RNA) Parse 392 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 393 +-----------------------------OBJ:V-N----------------------------+ +---------------COMP_by:V-N--------------+ +--------------------------------------COMP_for:N-N-------------------------------------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (similarity,polymerases) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,similarity) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (was,initiation) Parse 394 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-------MOD_ATT:N-N-------+ | +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (RNA,E) COMP_by:ADJ-N (determined,mapping) Parse 395 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | | +MOD_ATT:N-N+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 396 +-----------------------------OBJ:V-N----------------------------+ +---------------COMP_by:V-N--------------+ | +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+------------OBJ:V-N-----------+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,similarity) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (was,initiation) Parse 397 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +--------------COMP_by:ADJ-N-------------+ | +-----------MOD_ATT:N-N-----------+ +------COMP_by:ADJ-N-----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+MOD_PRED:N-+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:ADJ-N (determined,promoter) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) MOD_PRED:N-ADJ (site,determined) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,RNA) COMP_by:ADJ-N (determined,mapping) Parse 398 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +------------COMP_by:V_PASS-N------------+ | +-----------MOD_ATT:N-N-----------+ +----COMP_by:V_PASS-N----+------------OBJ:V-N-----------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ +----MOD_ATT:N-ADJ---+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | | +MOD_ATT+SUBJ:V_PASS+ | +MOD_A+ | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (mapping,nuclease) MOD_ATT:N-ADJ (site,transcriptional) COMP_by:V_PASS-N (determined,promoter) MOD_ATT:N-N (RNA,A) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (site,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V_PASS-N (determined,site) OBJ:V-N (showed,mapping) SUBJ:V-N (showed,region) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) COMP_by:V_PASS-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) Parse 399 +-----------------------------OBJ:V-N----------------------------+ +------------------COMP_for:N-N-----------------+ +---------------COMP_by:V-N--------------+ | | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) SUBJ:V-N (was,site) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (determined,similarity) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (was,initiation) Parse 400 +------------------COMP_for:N-N-----------------+ +-----------------------------OBJ:V-N----------------------------+ | +-----------MOD_ATT:N-N-----------+ +---------------COMP_by:V-N--------------+ | | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+-------COMP_by:V-N------+ | | | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_by:V-N (determined,promoter) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (mapping,S1) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V-N (determined,initiation) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (determined,similarity) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (was,initiation) Parse 401 +-----------------------------OBJ:V-N----------------------------+ +------------------COMP_for:N-N-----------------+ +---------------COMP_by:V-N--------------+ | | +-------MOD_ATT:N-N-------+ | +------SUBJ:V-N-----+-------COMP_by:V-N------+------------OBJ:V-N-----------+ | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ | +SUBJ:V+ | +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_by:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (mapping,S1) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,mapping) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) COMP_by:V-N (determined,mapping) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,similarity) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (RNA,E) MOD_ATT:N-N (mapping,nuclease) OBJ:V-N (was,initiation) Parse 402 +----------------------------------COMP_to:N-N----------------------------------+ +-----------------OBJ:V-N----------------+ +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) OBJ:V-N (was,initiation) Parse 403 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) COMP_to:V-N (showed,recognition) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 404 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ +---MOD_POST:N-ADJ--+------COMP_by:ADJ-N-----+ +---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_POST:N-ADJ (initiation,determined) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) OBJ:V-N (was,initiation) COMP_by:ADJ-N (determined,mapping) Parse 405 +----------------------------------SUBJ:V-N---------------------------------+ +-----------------COMP_by:N-N----------------+ | +------------------COMP_for:N-N-----------------+ +---SUBJ:V_PASS-N---+ | +---------------------OBJ:V-N--------------------+ +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:N-N (similarity,recognition) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 406 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ +-----------------COMP_by:N-N----------------+ | | +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+ | +---------------------OBJ:V-N--------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +---------COMP_to:N-N--------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) COMP_to:N-N (similarity,recognition) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 407 +----------------------------------SUBJ:V-N---------------------------------+ +-----------------COMP_by:N-N----------------+ | +--------------------------------------COMP_for:N-N-------------------------------------+ +---SUBJ:V_PASS-N---+ | | +--------------COMP_to:N-N--------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (similarity,polymerases) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 408 +----------------------------------SUBJ:V-N---------------------------------+ +--------------------------------------COMP_for:N-N-------------------------------------+ +-----------------COMP_by:N-N----------------+ | | +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+ | | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (similarity,polymerases) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 409 +----------------------------------SUBJ:V-N---------------------------------+ +------------------COMP_for:N-N-----------------+ +-----------------COMP_by:N-N----------------+ | | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+ | | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 410 +----------------------------------SUBJ:V-N---------------------------------+ +--------------------------------------COMP_for:N-N-------------------------------------+ +-----------------COMP_by:N-N----------------+ | | +-------MOD_ATT:N-N-------+ | +---SUBJ:V_PASS-N---+ | | | | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +--------------COMP_to:N-N--------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (similarity,polymerases) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) Parse 411 +----------------------------------SUBJ:V-N---------------------------------+ +-----------------COMP_by:N-N----------------+ +------------------------------------------COMP_for:V-N------------------------------------------+ +---SUBJ:V_PASS-N---+ | +---------------------OBJ:V-N--------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) MOD_ATT:N-N (polymerases,A) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) COMP_for:V-N (showed,polymerases) OBJ:V-N (was,initiation) Parse 412 +----------------------------------SUBJ:V-N---------------------------------+ +--------------------------------------COMP_for:N-N-------------------------------------+ +-----------------COMP_by:N-N----------------+ | | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+ | | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (similarity,polymerases) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) OBJ:V-N (was,initiation) Parse 413 +--------------------------------------COMP_for:N-N-------------------------------------+ +----------------------------------SUBJ:V-N---------------------------------+ | +-----------MOD_ATT:N-N-----------+ +-----------------COMP_by:N-N----------------+ | | | +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+ | | +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | | +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (similarity,polymerases) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 414 +----------------------------------SUBJ:V-N---------------------------------+------------------------------------------COMP_for:V-N------------------------------------------+ +-----------------COMP_by:N-N----------------+ | +-----------MOD_ATT:N-N-----------+ +---SUBJ:V_PASS-N---+ | +---------------------OBJ:V-N--------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ +-------------COMP_to:V-N-------------+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+ | | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (mapping,S1) OBJ:V-N (showed,sequences) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) MOD_ATT:N-N (mapping,nuclease) SUBJ:V-N (was,site) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) COMP_to:V-N (showed,recognition) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-N (region,promoter) SUBJ:V_PASS-N (determined,initiation) COMP_for:V-N (showed,polymerases) OBJ:V-N (was,initiation) Parse 415 +-----------------OBJ:V-N----------------+ +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 416 +-----------------OBJ:V-N----------------+ +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 417 +------------------COMP_for:N-N-----------------+ +-----------------OBJ:V-N----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 418 +------------------COMP_for:N-N-----------------+ +-----------------OBJ:V-N----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | +--------------COMP_to:N-N--------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | +----MOD_ATT:N-ADJ----+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 419 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +-----------------OBJ:V-N----------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +--------------COMP_to:N-N--------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) COMP_to:N-N (similarity,sequences) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 420 +----------------------------------SUBJ:V-N---------------------------------+ +-----------------------------COMP_by:N-N----------------------------+ | +------------------COMP_for:N-N-----------------+ +-----------------COMP_by:N-N----------------+ | | | +---------MOD_ATT:N-N---------+ +---SUBJ:V_PASS-N---+ | | +---------------------OBJ:V-N--------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ | +MOD_ATT:N-N+ | +-------------COMP_to:V-N-------------+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | | +MOD_A+ +MOD_ATT+ +-OBJ:V-N+ +MOD_ATT:N-+ | +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) OBJ:V-N (showed,sequences) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (polymerases,A) COMP_by:N-N (initiation,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,initiation) SUBJ:V-N (was,site) MOD_ATT:N-N (region,promoter) COMP_by:N-N (initiation,region) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) COMP_to:V-N (showed,recognition) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-N (mapping,nuclease) COMP_for:N-N (sequences,polymerases) MOD_ATT:N-ADJ (recognition,conserved) SUBJ:V_PASS-N (determined,initiation) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 421 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ +-----------MOD_ATT:N-N-----------+ +-----------------OBJ:V-N----------------+--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+------------OBJ:V-N-----------+ | | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:V-N (determined,polymerases) MOD_ATT:N-N (polymerases,GENEXXX) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,A) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) SUBJ:V-N (showed,region) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) OBJ:V-N (showed,mapping) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,similarity) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 422 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +-----------------OBJ:V-N----------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:V-N (determined,polymerases) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,A) OBJ:V-N (showed,similarity) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,RNA) OBJ:V-N (was,initiation) Parse 423 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ | +----------------------------------COMP_to:N-N----------------------------------+ | +-----------------OBJ:V-N----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_for:V-N (determined,polymerases) COMP_to:N-N (mapping,sequences) OBJ:V-N (showed,similarity) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) OBJ:V-N (was,initiation) Parse 424 +----------------------------------------------------------------------COMP_for:V-N----------------------------------------------------------------------+ +-----------------OBJ:V-N----------------+ | +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_for:V-N (determined,polymerases) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (S1,nuclease) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 425 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +-----------------OBJ:V-N----------------+ | +-------MOD_ATT:N-N-------+ | +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) Parse 426 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +-----------------OBJ:V-N----------------+ | +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-ADJ (sequences,conserved) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,RNA) OBJ:V-N (was,initiation) Parse 427 +------------------COMP_for:N-N-----------------+ +----------------------------------COMP_to:N-N----------------------------------+ +-----------MOD_ATT:N-N-----------+ +-----------------OBJ:V-N----------------+ | | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (polymerases,RNA) OBJ:V-N (was,initiation) Parse 428 +-----------------OBJ:V-N----------------+ +------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (was,initiation) Parse 429 +------------------COMP_for:N-N-----------------+ +-----------------OBJ:V-N----------------+ | +-------MOD_ATT:N-N-------+ | +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | +-----MOD_ATT:N-N-----+ | +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) COMP_for:N-N (sequences,polymerases) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (RNA,E) OBJ:V-N (was,initiation) Parse 430 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +-----------------OBJ:V-N----------------+ +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) OBJ:V-N (showed,similarity) MOD_ATT:N-N (sigma,E) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 431 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ +-----------------OBJ:V-N----------------+ +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 432 +--------------------------------------------------COMP_for:N-N-------------------------------------------------+ | +-----------MOD_ATT:N-N-----------+ +-----------------OBJ:V-N----------------+ | +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+ +--------------------------COMP_to:N-N--------------------------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,A) MOD_ATT:N-N (polymerases,RNA) COMP_for:N-N (promoter,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) OBJ:V-N (showed,similarity) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (polymerases,E) MOD_ATT:N-ADJ (recognition,conserved) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,GENEXXX) OBJ:V-N (was,initiation) Parse 433 +----------------------------------COMP_to:N-N----------------------------------+ +-----------------OBJ:V-N----------------+--------------------------COMP_to:N-N--------------------------+------------------COMP_for:N-N-----------------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+------------OBJ:V-N-----------+ | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ----+ | +-------MOD_ATT:N-N-------+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ | +MOD_ATT:N-+ +MOD+ | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) COMP_to:N-N (mapping,sequences) OBJ:V-N (showed,similarity) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-ADJ (sequences,conserved) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) MOD_ATT:N-N (polymerases,A) OBJ:V-N (was,initiation) Parse 434 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +-----------------OBJ:V-N----------------+--------------------------COMP_to:N-N--------------------------+ +---------MOD_ATT:N-N---------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+------------OBJ:V-N-----------+ | | +-------MOD_ATT:N-N-------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | +-MOD_ATT:N-N-+ +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ +MOD+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,GENEXXX) COMP_to:N-N (mapping,sequences) MOD_ATT:N-N (polymerases,A) OBJ:V-N (showed,similarity) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (S1,nuclease) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (sigma,E) OBJ:V-N (showed,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) Parse 435 +----------------------------------COMP_to:N-N----------------------------------+------------------COMP_for:N-N-----------------+ +-----------------OBJ:V-N----------------+--------------------------COMP_to:N-N--------------------------+ +-----------MOD_ATT:N-N-----------+ +------SUBJ:V-N-----+---------OBJ:V-N--------+------------OBJ:V-N-----------+ | | +---------MOD_ATT:N-N---------+ +---OBJ:V-N--+ +----COMP_by:V-N---+ | +----OBJ:V-N---+ | | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-AD+ +SUBJ+ | +MOD_A+ | | +SUBJ:V+-OBJ:V-N+ +MOD_ATT:N-+MOD_ATT:N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | The transcriptional initiation site was determined by nuclease S1 mapping and the promoter region showed similarity to the conserved recognition sequences for the E sigma A and/or GENEXXX RNA polymerases . COMP_to:N-N (mapping,sequences) OBJ:V-N (showed,similarity) COMP_for:N-N (sequences,polymerases) SUBJ:V-N (was,site) COMP_by:V-N (determined,S1) MOD_ATT:N-ADJ (recognition,conserved) MOD_ATT:N-N (S1,nuclease) MOD_ATT:N-N (RNA,A) SUBJ:V-N (determined,initiation) COMP_to:N-N (promoter,sequences) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (showed,mapping) MOD_ATT:N-N (polymerases,RNA) SUBJ:V-N (showed,region) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (determined,promoter) MOD_ATT:N-N (sequences,recognition) MOD_ATT:N-N (polymerases,sigma) MOD_ATT:N-N (polymerases,E) OBJ:V-N (showed,promoter) OBJ:V-N (determined,mapping) OBJ:V-N (was,initiation) PMID: 1573998-2 Sentence 5 It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . Parse 0 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) COMP_in:V-N (is,establishment) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) MOD_ATT:N-ADJ (cell,specific) Parse 1 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ +--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) COMP_in:V-N (is,establishment) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (cell,specific) Parse 2 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) COMP_in:V-N (is,establishment) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) Parse 3 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (type,specific) Parse 4 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ +--------COMP_in:V-N--------+ +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (type,specific) Parse 5 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+ | | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) COMP_in:V-N (is,establishment) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (cell,specific) Parse 6 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 7 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 8 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 9 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 10 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ +--------COMP_in:V-N--------+ +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 11 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 12 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+ +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 13 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 14 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 15 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+ +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 16 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_in:V-N (is,establishment) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) COMP_after:N-N (activities,septation) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) Parse 17 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-N (gene,differential) MOD_ATT:N-ADJ (cell,specific) Parse 18 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ +--------COMP_in:V-N--------+ +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_in:V-N (is,establishment) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) COMP_after:N-N (activities,septation) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) Parse 19 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ +--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 20 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ +--------COMP_in:V-N--------+ +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 21 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ +--------COMP_in:V-N--------+ +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) Parse 22 +-----------------------------COMP_in:V-N----------------------------+ +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_in:V-N (is,establishment) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) Parse 23 +-----------------------------COMP_in:V-N----------------------------+ +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+ +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_in:V-N (is,establishment) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) Parse 24 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 25 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) Parse 26 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 27 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | | +MOD_+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) Parse 28 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) Parse 29 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) Parse 30 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) Parse 31 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-N (gene,differential) MOD_ATT:N-ADJ (cell,specific) Parse 32 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 33 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 34 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-ADJ (cell,specific) Parse 35 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) MOD_ATT:N-ADJ (cell,specific) Parse 36 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (type,specific) Parse 37 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) Parse 38 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (cell,specific) Parse 39 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (cell,specific) Parse 40 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) Parse 41 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) Parse 42 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (cell,specific) Parse 43 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) Parse 44 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_after:N-N (activities,septation) MOD_ATT:N-N (gene,differential) MOD_ATT:N-ADJ (cell,specific) Parse 45 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) Parse 46 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 47 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD:V-ADV (direct,only) Parse 48 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) Parse 49 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 50 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) Parse 51 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (type,specific) Parse 52 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 53 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_after:N-N (activities,septation) MOD_ATT:N-N (gene,differential) MOD_ATT:N-ADJ (type,specific) Parse 54 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 55 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 56 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (type,specific) Parse 57 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) MOD_ATT:N-ADJ (cell,specific) Parse 58 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 59 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 60 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (type,specific) Parse 61 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 62 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 63 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (cell,specific) Parse 64 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) Parse 65 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (cell,specific) Parse 66 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) Parse 67 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 68 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 69 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD:V-ADV (direct,only) Parse 70 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 71 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 72 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 73 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 74 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ +--------COMP_in:V-N--------+-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ | +MOD_+ | +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD_ATT:N-N (event,key) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) MOD_ATT:N-ADJ (type,specific) COMP_in:V-N (is,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) COMP_after:N-N (activities,septation) Parse 75 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (type,specific) Parse 76 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +----------COMP_after:V-N---------+ | | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (type,specific) Parse 77 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | | +------COMP_of:N-N------+ | | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 78 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 79 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 80 +-----------------------------------MOD:V-ADV----------------------------------+ +-----------------------------COMP_in:V-N----------------------------+ | +------------------MOD:V-ADV-----------------+ | | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ | +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+ | | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) MOD:V-ADV (direct,suggesting) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (type,specific) Parse 81 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) Parse 82 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) Parse 83 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) Parse 84 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) Parse 85 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) Parse 86 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 87 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-N (gene,differential) MOD_ATT:N-ADJ (cell,specific) Parse 88 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) COMP_after:N-N (activities,septation) Parse 89 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) Parse 90 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) Parse 91 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 92 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) Parse 93 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) Parse 94 +-----------------------------COMP_in:V-N----------------------------+ +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ | | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) Parse 95 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) Parse 96 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) Parse 97 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) Parse 98 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) Parse 99 +-----------------------------COMP_in:V-N----------------------------+ +----------COMP_after:V-N---------+ | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) MOD_ATT:N-N (event,key) COMP_after:N-N (activities,septation) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) Parse 100 +-----------------------------COMP_in:V-N----------------------------+ +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ | | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) Parse 101 +-----------------------------COMP_in:V-N----------------------------+ +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ | | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) Parse 102 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 103 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_after:N-N (activities,septation) MOD_ATT:N-N (gene,differential) Parse 104 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 105 +-----------------------------COMP_in:V-N----------------------------+ +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) MOD_ATT:N-N (event,key) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) Parse 106 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) COMP_after:N-N (activities,septation) Parse 107 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 108 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) Parse 109 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) MOD_ATT:N-N (activities,sigma) Parse 110 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_after:N-N (activities,septation) Parse 111 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 112 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 113 +-----------------------------COMP_in:V-N----------------------------+ +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) Parse 114 +-----------------------------COMP_in:V-N----------------------------+ +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-N (event,key) MOD_ATT:N-ADJ (cell,specific) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) Parse 115 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (activities,sigma) Parse 116 +-----------------------------COMP_in:V-N----------------------------+ +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) MOD_ATT:N-N (event,key) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) Parse 117 +-----------------------------COMP_in:V-N----------------------------+ +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) COMP_in:V-N (direct,type) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_in:N-N (event,establishment) COMP_after:V-N (direct,septation) MOD_ATT:N-ADJ (type,specific) MOD_ATT:N-N (event,key) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) Parse 118 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 119 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 120 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (gene,differential) MOD_ATT:N-N (activities,sigma) Parse 121 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +-------------------COMP_of:N-N-------------------+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (gene,differential) MOD_ATT:N-N (activities,sigma) Parse 122 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 123 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 124 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-N (activities,sigma) Parse 125 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ +-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-N (activities,sigma) Parse 126 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+ +-----------COMP_of:N-N----------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | | +---MOD_ATT:N-N--+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) COMP_after:N-N (activities,septation) MOD_ATT:N-ADJ (cell,specific) Parse 127 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +-----------------------MOD_PRED:N-N----------------------+ +----------COMP_after:V-N---------+ | | +-------------COMP_after:N-N-------------+ | +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | | +------COMP_of:N-N------+ | | +-----------COMP_of:N-N----------+ | +SUBJ:V+--OBJ:V-N-+ | | | +MOD_AT+MOD_+-SUBJ:V-N+ | +MOD_ATT+ | +MOD_+---COMP_in:N-N--+ +MOD_ATT:+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . COMP_after:N-N (segregation,septation) OBJ:V-N (direct,transcription) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) COMP_of:N-N (establishment,expression) MOD_ATT:N-N (gene,differential) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-ADJ (cell,specific) Parse 128 +-----------------------------COMP_in:V-N----------------------------+ +------------------MOD:V-ADV-----------------+ | +----------COMP_after:V-N---------+ | | +-----------------------MOD_PRED:N-N----------------------+-------------------COMP_of:N-N-------------------+ +-----SUBJ:V-N-----+-----MOD:V-ADV-----+ | | +MOD_ATT:N-A+ +------COMP_of:N-N------+ | +--MOD_ATT:N-ADJ-+ | +SUBJ:V+--OBJ:V-N-+ | | | | +MOD_+-SUBJ:V-N+ | +MOD_ATT+-COMP_after:N-N-+ +MOD_+---COMP_in:N-N--+ | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | | It now appears that GENEXXX and GENEXXX direct transcription only after septation and then in a specific cell type , suggesting that the segregation of the sigma activities after septation is a key event in the establishment of differential gene expression . OBJ:V-N (direct,transcription) COMP_of:N-N (event,expression) MOD_PRED:N-N (segregation,event) COMP_in:N-N (event,establishment) MOD_ATT:N-ADJ (type,specific) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (expression,gene) MOD:V-ADV (direct,then) MOD_ATT:N-N (event,key) SUBJ:V-N (direct,GENEXXX) MOD_ATT:N-N (activities,sigma) MOD_ATT:N-N (type,cell) COMP_of:N-N (segregation,activities) COMP_after:V-N (direct,septation) COMP_in:V-N (direct,type) SUBJ:V-N (suggesting,type) MOD:V-ADV (direct,only) MOD_ATT:N-ADJ (expression,differential) COMP_after:N-N (activities,septation) PMID: 1577688-1 Sentence 6 Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . Parse 0 +------------------------------------------MOD:V_PASS-ADV-----------------------------------------+ +-------------------SUBJ:V_PASS-N------------------+-----------------------------------COMP_by:V_PASS-N----------------------------------+ | +-------------COMP_in:N-N-------------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-----COMP_in:N-N-----+ | | +----MOD_ATT:N-N----+ | +MOD_ATT+ +MOD_A+ | +MOD:V_PASS-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+MOD_ATT+ | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . COMP_by:V_PASS-N (regulated,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-N (GENEXXX,factors) MOD:V_PASS-ADV (regulated,differentially) SUBJ:V_PASS-N (regulated,expression) MOD_ATT:N-N (GENEXXX,factors) MOD_ATT:N-N (expression,Gene) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_in:N-N (expression,cell) COMP_by:V_PASS-N (regulated,GENEXXX) MOD_ATT:N-N (factors,transcription) COMP_in:N-N (expression,forespore) MOD:V_PASS-ADV (regulated,respectively) Parse 1 +------------------------------------------MOD:V_PASS-ADV-----------------------------------------+ +-------------------SUBJ:V_PASS-N------------------+-----------------------------------COMP_by:V_PASS-N----------------------------------+ | +-------------COMP_in:N-N-------------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-----COMP_in:N-N-----+ | | +--------MOD_ATT:N-ADJ-------+----MOD_ATT:N-N----+ | +MOD_ATT+ +MOD_A+ | +MOD:V_PASS-+ | +MOD_ATT:N-+MOD_ATT+ | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . COMP_by:V_PASS-N (regulated,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-N (GENEXXX,factors) MOD:V_PASS-ADV (regulated,differentially) SUBJ:V_PASS-N (regulated,expression) MOD_ATT:N-N (GENEXXX,factors) MOD_ATT:N-N (expression,Gene) COMP_in:N-N (expression,cell) COMP_by:V_PASS-N (regulated,GENEXXX) MOD_ATT:N-N (factors,transcription) COMP_in:N-N (expression,forespore) MOD_ATT:N-ADJ (factors,compartment-specific) MOD:V_PASS-ADV (regulated,respectively) Parse 2 +-------------------SUBJ:V_PASS-N------------------+------------------------------------------MOD:V_PASS-ADV-----------------------------------------+ +-------------COMP_in:N-N-------------+ +-----------------------------------COMP_by:V_PASS-N----------------------------------+ | +-----COMP_in:N-N-----+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +MOD_ATT+ +MOD_A+ | +MOD:V_PASS-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+MOD_ATT+ | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . COMP_by:V_PASS-N (regulated,GENEXXX) MOD_ATT:N-N (cell,mother) MOD:V_PASS-ADV (regulated,differentially) SUBJ:V_PASS-N (regulated,expression) MOD_ATT:N-N (expression,Gene) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_in:N-N (expression,cell) COMP_by:V_PASS-N (regulated,GENEXXX) MOD_ATT:N-N (factors,transcription) COMP_in:N-N (expression,forespore) MOD_ATT:N-N (GENEXXX,factors) MOD:V_PASS-ADV (regulated,respectively) Parse 3 +------------------------------------------MOD:V_PASS-ADV-----------------------------------------+ +-------------------SUBJ:V_PASS-N------------------+-----------------------------------COMP_by:V_PASS-N----------------------------------+ | +-------------COMP_in:N-N-------------+ +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +-----COMP_in:N-N-----+ | | +--------MOD_ATT:N-ADJ-------+ | | | +MOD_ATT+ +MOD_A+ | +MOD:V_PASS-+ | +MOD_ATT:N-+MOD_ATT+ | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . COMP_by:V_PASS-N (regulated,GENEXXX) MOD_ATT:N-N (cell,mother) MOD:V_PASS-ADV (regulated,differentially) SUBJ:V_PASS-N (regulated,expression) MOD_ATT:N-N (expression,Gene) COMP_in:N-N (expression,cell) COMP_by:V_PASS-N (regulated,GENEXXX) MOD_ATT:N-N (factors,transcription) COMP_in:N-N (expression,forespore) MOD_ATT:N-N (GENEXXX,factors) MOD_ATT:N-ADJ (factors,compartment-specific) MOD:V_PASS-ADV (regulated,respectively) Parse 4 +-------------------------SUBJ:V-N-------------------------+ +----------------------OBJ:V-N----------------------+ +--------------------------------------------MOD:V-ADV--------------------------------------------+ | +------------------SUBJ:V-N-----------------+ +---------------------------------------OBJ:V-N---------------------------------------+ | | +-------------COMP_in:N-N-------------+ | +---------------------------------OBJ:V-N---------------------------------+ | | | +-----COMP_in:N-N-----+ | | +---------------------------COMP_by:V-N---------------------------+ | | | | | +MOD_A+ | | +-MOD:V-ADV-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . MOD_ATT:N-N (cell,mother) OBJ:V-N (regulated,GENEXXX) COMP_by:V-N (regulated,factors) SUBJ:V-N (regulated,Gene) OBJ:V-N (is,Gene) MOD:V-ADV (regulated,respectively) MOD_ATT:N-ADJ (transcription,compartment-specific) OBJ:V-N (regulated,GENEXXX) SUBJ:V-N (is,expression) COMP_in:N-N (expression,cell) MOD:V-ADV (regulated,differentially) COMP_in:N-N (expression,forespore) MOD_ATT:N-N (factors,transcription) Parse 5 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-----------------------SUBJ:V_PASS-N----------------------+ | +----------------------OBJ:V-N----------------------+ | | | +------------------SUBJ:V-N-----------------+ | | | +-------------COMP_in:N-N-------------+ | | +-----------MOD:V-ADV-----------+ | +-----COMP_in:N-N-----+ | | +-------------------COMP_by:V_PASS-N-------------------+ +------OBJ:V-N------+ | | | +MOD_A+ | | +MOD:V_PASS-+ +--MOD_ATT:N-ADJ--+ +OBJ:V-N+ | | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . MOD_ATT:N-N (cell,mother) OBJ:V-N (factors,GENEXXX) SUBJ:V-N (factors,Gene) SUBJ:V_PASS-N (regulated,Gene) OBJ:V-N (factors,GENEXXX) COMP_by:V_PASS-N (regulated,transcription) MOD:V-ADV (factors,respectively) OBJ:V-N (is,Gene) MOD_ATT:N-ADJ (transcription,compartment-specific) SUBJ:V-N (is,expression) COMP_in:N-N (expression,cell) MOD:V_PASS-ADV (regulated,differentially) COMP_in:N-N (expression,forespore) Parse 6 +-------------------------SUBJ:V-N-------------------------+--------------------------------------------MOD:V-ADV--------------------------------------------+ +----------------------OBJ:V-N----------------------+ +---------------------------------------OBJ:V-N---------------------------------------+ | | +------------------SUBJ:V-N-----------------+ +---------------------------------OBJ:V-N---------------------------------+ | | | +-------------COMP_in:N-N-------------+ | +---------------------------COMP_by:V-N---------------------------+ | | | | +-----COMP_in:N-N-----+ | | | +--------MOD_ATT:N-ADJ-------+ | | | | | +MOD_A+ | | +-MOD:V-ADV-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . MOD_ATT:N-N (cell,mother) OBJ:V-N (regulated,GENEXXX) COMP_by:V-N (regulated,factors) SUBJ:V-N (regulated,Gene) OBJ:V-N (is,Gene) MOD:V-ADV (regulated,respectively) OBJ:V-N (regulated,GENEXXX) SUBJ:V-N (is,expression) COMP_in:N-N (expression,cell) MOD:V-ADV (regulated,differentially) COMP_in:N-N (expression,forespore) MOD_ATT:N-N (factors,transcription) MOD_ATT:N-ADJ (factors,compartment-specific) Parse 7 +-------------------------SUBJ:V-N-------------------------+ +----------------------OBJ:V-N----------------------+ +--------------------------------------------MOD:V-ADV--------------------------------------------+ | +------------------SUBJ:V-N-----------------+ +---------------------------------------OBJ:V-N---------------------------------------+ | | +-------------COMP_in:N-N-------------+ | +---------------------------------OBJ:V-N---------------------------------+ | | | +-----COMP_in:N-N-----+ | | +----------------------COMP_by:V-N---------------------+ | | | | | +MOD_A+ | | +-MOD:V-ADV-+ +--MOD_ATT:N-ADJ--+ +MOD_ATT+ | | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . MOD_ATT:N-N (cell,mother) OBJ:V-N (regulated,GENEXXX) COMP_by:V-N (regulated,transcription) SUBJ:V-N (regulated,Gene) OBJ:V-N (is,Gene) MOD:V-ADV (regulated,respectively) MOD_ATT:N-ADJ (transcription,compartment-specific) OBJ:V-N (regulated,GENEXXX) SUBJ:V-N (is,expression) COMP_in:N-N (expression,cell) MOD:V-ADV (regulated,differentially) COMP_in:N-N (expression,forespore) MOD_ATT:N-N (GENEXXX,factors) Parse 8 +-------------------------SUBJ:V-N-------------------------+ +----------------------OBJ:V-N----------------------+ +--------------------------------------------MOD:V-ADV--------------------------------------------+ | +------------------SUBJ:V-N-----------------+ +---------------------------------------OBJ:V-N---------------------------------------+ | | +-------------COMP_in:N-N-------------+ | +---------------------------------OBJ:V-N---------------------------------+ | | | +-----COMP_in:N-N-----+ | | +----------------------COMP_by:V-N---------------------+ +----MOD_ATT:N-N----+ | | | +MOD_A+ | | +-MOD:V-ADV-+ +--MOD_ATT:N-ADJ--+ +MOD_ATT+ | | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . MOD_ATT:N-N (cell,mother) MOD_ATT:N-N (GENEXXX,factors) OBJ:V-N (regulated,GENEXXX) COMP_by:V-N (regulated,transcription) SUBJ:V-N (regulated,Gene) OBJ:V-N (is,Gene) MOD_ATT:N-N (GENEXXX,factors) MOD:V-ADV (regulated,respectively) MOD_ATT:N-ADJ (transcription,compartment-specific) OBJ:V-N (regulated,GENEXXX) SUBJ:V-N (is,expression) COMP_in:N-N (expression,cell) MOD:V-ADV (regulated,differentially) COMP_in:N-N (expression,forespore) Parse 9 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +---------------------------------------------------COMP_by:N-N---------------------------------------------------+ | +-----------------------SUBJ:V_PASS-N----------------------+ | | +----------------------OBJ:V-N----------------------+ | | | | +------------------SUBJ:V-N-----------------+ | | | | +-------------COMP_in:N-N-------------+ | | | +-----------MOD:V-ADV-----------+ | +-----COMP_in:N-N-----+ | | | | +------OBJ:V-N------+ | | | +MOD_A+ | | +MOD:V_PASS-+ +--MOD_ATT:N-ADJ--+ +OBJ:V-N+ | | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . SUBJ:V_PASS-N (regulated,Gene) MOD_ATT:N-N (cell,mother) OBJ:V-N (factors,GENEXXX) SUBJ:V-N (factors,Gene) OBJ:V-N (factors,GENEXXX) MOD:V_PASS-ADV (regulated,differentially) MOD:V-ADV (factors,respectively) OBJ:V-N (is,Gene) COMP_by:N-N (Gene,transcription) MOD_ATT:N-ADJ (transcription,compartment-specific) SUBJ:V-N (is,expression) COMP_in:N-N (expression,cell) COMP_in:N-N (expression,forespore) Parse 10 +-------------------------SUBJ:V-N-------------------------+ +----------------------OBJ:V-N----------------------+ +--------------------------------------------MOD:V-ADV--------------------------------------------+ | +------------------SUBJ:V-N-----------------+ +---------------------------------------OBJ:V-N---------------------------------------+ | | +-------------COMP_in:N-N-------------+ | +---------------------------------OBJ:V-N---------------------------------+ | | | +-----COMP_in:N-N-----+ | | +-------------COMP_by:V-N------------+ | | | | | +MOD_A+ | | +-MOD:V-ADV-+ | +MOD_ATT:N-+MOD_ATT+ | | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . MOD_ATT:N-N (cell,mother) OBJ:V-N (regulated,GENEXXX) COMP_by:V-N (regulated,compartment-specific) SUBJ:V-N (regulated,Gene) OBJ:V-N (is,Gene) MOD:V-ADV (regulated,respectively) OBJ:V-N (regulated,GENEXXX) SUBJ:V-N (is,expression) COMP_in:N-N (expression,cell) MOD_ATT:N-N (factors,transcription) MOD:V-ADV (regulated,differentially) COMP_in:N-N (expression,forespore) MOD_ATT:N-N (GENEXXX,factors) Parse 11 +-------------------------SUBJ:V-N-------------------------+ +----------------------OBJ:V-N----------------------+ +--------------------------------------------MOD:V-ADV--------------------------------------------+ | +------------------SUBJ:V-N-----------------+ +---------------------------------------OBJ:V-N---------------------------------------+ | | +-------------COMP_in:N-N-------------+ | +---------------------------------OBJ:V-N---------------------------------+ | | | +-----COMP_in:N-N-----+ | | +-------------COMP_by:V-N------------+ +----MOD_ATT:N-N---+ | | | | +MOD_A+ | | +-MOD:V-ADV-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . MOD_ATT:N-N (cell,mother) OBJ:V-N (regulated,GENEXXX) COMP_by:V-N (regulated,compartment-specific) SUBJ:V-N (regulated,Gene) MOD_ATT:N-N (GENEXXX,transcription) OBJ:V-N (is,Gene) MOD:V-ADV (regulated,respectively) OBJ:V-N (regulated,GENEXXX) SUBJ:V-N (is,expression) COMP_in:N-N (expression,cell) MOD:V-ADV (regulated,differentially) COMP_in:N-N (expression,forespore) MOD_ATT:N-N (GENEXXX,factors) Parse 12 +-------------------------SUBJ:V-N-------------------------+ +----------------------OBJ:V-N----------------------+ +--------------------------------------------MOD:V-ADV--------------------------------------------+ | +------------------SUBJ:V-N-----------------+ +---------------------------------------OBJ:V-N---------------------------------------+ | | +-------------COMP_in:N-N-------------+ | +---------------------------------OBJ:V-N---------------------------------+ | | | +-----COMP_in:N-N-----+ | | +-------------COMP_by:V-N------------+ +----MOD_ATT:N-N----+ | | | +MOD_A+ | | +-MOD:V-ADV-+ | +MOD_ATT:N-+MOD_ATT+ | | | | | | | | | | | | | | | | Gene expression in the mother cell and the forespore is regulated differentially by the compartment-specific transcription factors GENEXXX and GENEXXX , respectively . MOD_ATT:N-N (cell,mother) MOD_ATT:N-N (GENEXXX,factors) OBJ:V-N (regulated,GENEXXX) COMP_by:V-N (regulated,compartment-specific) SUBJ:V-N (regulated,Gene) OBJ:V-N (is,Gene) MOD_ATT:N-N (GENEXXX,factors) MOD:V-ADV (regulated,respectively) OBJ:V-N (regulated,GENEXXX) SUBJ:V-N (is,expression) COMP_in:N-N (expression,cell) MOD_ATT:N-N (factors,transcription) MOD:V-ADV (regulated,differentially) COMP_in:N-N (expression,forespore) PMID: 1691789-1 Sentence 7 In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . Parse 0 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | +---------MOD_ATT:N-N--------+ | | | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (genes,mother-cell) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (transcription,A) Parse 1 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 2 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 3 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------COMP_on:N-N-----------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (genes,mother-cell) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) Parse 4 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +-----------COMP_on:N-N-----------+ | | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (extension,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 5 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------OBJ:V-N----------------------+ | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 6 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------COMP_of:N-N-----------------------+ +-----------COMP_in:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 7 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) APPOS (extension,GENEXXX) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 8 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) APPOS (extension,GENEXXX) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 9 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | +---------MOD_ATT:N-N--------+ | | | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,four) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (transcription,A) Parse 10 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 11 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,GENEXXX) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (work,A) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (genes,mother-cell) Parse 12 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 13 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (sets,controlled) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 14 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) OBJ:V-N (show,that) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V_PASS-N (controlled,four) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 15 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | | | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (work,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 16 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------------------COMP_of:N-N-----------------------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) Parse 17 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +-----------COMP_in:V-N----------+ +-------------SUBJ:V_PASS-N-------------+ | +-----------------------COMP_of:N-N-----------------------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) Parse 18 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_on:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_on:N-N-------------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ +--------------------------------------------COMP_on:N-N--------------------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | +-----------COMP_on:N-N-----------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_on:N-N (extension,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_on:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (genes,mother-cell) COMP_on:N-N (extension,GENEXXX) Parse 19 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 20 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 21 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 22 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 23 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_on:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_on:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_on:N-N--------------------------------------------+ | | | +-----------COMP_on:N-N-----------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) COMP_on:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_on:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) COMP_on:N-N (extension,GENEXXX) Parse 24 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 25 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 26 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_on:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_on:N-N-------------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_on:N-N (extension,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) COMP_on:N-N (extension,GENEXXX) Parse 27 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_of:N-N (extension,GENEXXX) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 28 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,GENEXXX) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 29 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) Parse 30 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | +-----------------------COMP_of:N-N-----------------------+ | | +-----------COMP_on:N-N-----------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) Parse 31 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) COMP_in:V-N (show,GENEXXX) Parse 32 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,GENEXXX) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) OBJ:V-N (sets,four) SUBJ:V-N (show,we) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 33 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) Parse 34 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_on:N-N--------------------------------------------+ | | | +-----------COMP_on:N-N-----------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_on:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) APPOS (extension,GENEXXX) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 35 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | | +------------------------------------COMP_on:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) APPOS (extension,GENEXXX) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 36 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------OBJ:V-N----------------------+ +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 37 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 38 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +-----------COMP_on:N-N-----------+ | | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 39 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | | +--------------------------------------------------APPOS-------------------------------------------------+ | | | +--------------------------------------------APPOS-------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 40 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (GENEXXX,recent) APPOS (extension,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) COMP_of:N-N (transcription,A) SUBJ:V-N (show,we) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 41 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +-----------COMP_on:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_on:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 42 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------COMP_of:V-N----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 43 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------COMP_of:V-N----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 44 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 45 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | +---------MOD_ATT:N-N--------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,A) COMP_of:V-N (show,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) COMP_of:V-N (show,GENEXXX) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (genes,mother-cell) Parse 46 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | | | | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 47 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) Parse 48 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 49 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | +-----------------------OBJ:V-N----------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 50 +----------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+-------SUBJ:V-N------+---OBJ:V-N--+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+MOD_+ +MOD:+ +-MOD:V-ADV-+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (sets,gene) COMP_in:V-N (controlled,extension) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_POST:N-ADJ (cascade,of) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (controlled,four) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) OBJ:V-N (controlled,sets) MOD:V-ADV (controlled,co-ordinately) COMP_of:N-N (transcription,A) Parse 51 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +-----------------------COMP_of:N-N-----------------------+ | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 52 +----------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------+ | +-----------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------MOD:V-ADV--------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ | +-------SUBJ:V-N------+---OBJ:V-N--+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+MOD_+ | | +-MOD:V-ADV-+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) OBJ:V-N (controlled,sets) MOD_POST:N-ADJ (cascade,of) MOD_ATT:N-ADJ (work,recent) SUBJ:V-N (controlled,four) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (controlled,co-ordinately) MOD:V-ADV (controlled,least) COMP_in:V-N (controlled,extension) COMP_of:N-N (transcription,A) COMP_on:V-N (controlled,transcription) OBJ:V-N (show,transcription) Parse 53 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 54 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | +--------------------------------COMP_of:N-N--------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 55 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +-----------COMP_on:N-N-----------+ | | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 56 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | +--------------------------------COMP_of:N-N--------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 57 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 58 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_on:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) OBJ:V-N (show,that) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 59 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_on:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 60 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_of:N-N (extension,GENEXXX) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 61 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | +-----------------------OBJ:V-N----------------------+ +-----------------------COMP_of:N-N-----------------------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) Parse 62 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +-----------COMP_in:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 63 +-----------------------OBJ:V-N----------------------+ +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +-----------COMP_in:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (work,A) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 64 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | | +------------------------------------COMP_on:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 65 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) OBJ:V-N (show,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) COMP_of:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,extension) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) Parse 66 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------OBJ:V-N----------------------+ +-----------------------COMP_of:N-N-----------------------+ | | | | +-------------SUBJ:V_PASS-N-------------+ | +-----------COMP_on:N-N-----------+ | | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 67 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 68 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 69 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | | +-----------------------------------APPOS-----------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) APPOS (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 70 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | | +--------------------------------------------------APPOS-------------------------------------------------+ | | | +--------------------------------------------APPOS-------------------------------------------+ | | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) OBJ:V-N (show,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) COMP_of:N-N (cascade,four) COMP_in:V_PASS-N (turned,extension) SUBJ:V-N (show,we) OBJ:V-N (sets,four) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 71 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +-----------------------------------APPOS-----------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) OBJ:V-N (show,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) APPOS (transcription,GENEXXX) COMP_in:V_PASS-N (turned,extension) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) APPOS (transcription,GENEXXX) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 72 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,extension) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) OBJ:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 73 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | | +-----------------------------------APPOS-----------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 74 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +-----------COMP_on:V-N----------+ | | | +---------MOD_ATT:N-N--------+ | | | | | | +------COMP_on:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_on:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_on:V-N (show,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_on:V-N (show,GENEXXX) COMP_on:V-N (show,GENEXXX) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 75 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | +---------MOD_ATT:N-N--------+ | +-----------COMP_on:N-N-----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) COMP_on:N-N (extension,transcription) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_of:V-N (show,GENEXXX) COMP_of:N-N (cascade,four) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (sets,four) COMP_of:V-N (show,GENEXXX) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (genes,mother-cell) Parse 76 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | +---------MOD_ATT:N-N--------+ | +-----------COMP_on:N-N-----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) COMP_on:N-N (extension,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_of:V-N (show,A) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:V-N (show,GENEXXX) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 77 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | +---------MOD_ATT:N-N--------+ | +-----------------------OBJ:V-N----------------------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,A) COMP_of:V-N (show,GENEXXX) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) OBJ:V-N (sets,cascade) COMP_of:V-N (show,GENEXXX) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (genes,mother-cell) Parse 78 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | | | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) COMP_on:V-N (show,transcription) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 79 +-----------------------OBJ:V-N----------------------+ +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 80 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) COMP_in:V_PASS-N (turned,extension) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 81 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 82 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 83 +----------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------MOD:V-ADV--------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ | +-------SUBJ:V-N------+---OBJ:V-N--+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+MOD_+ | | +-MOD:V-ADV-+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V-N (controlled,extension) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (controlled,sets) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) MOD_POST:N-ADJ (cascade,of) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (controlled,four) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD:V-ADV (controlled,co-ordinately) MOD:V-ADV (controlled,least) COMP_of:N-N (transcription,A) Parse 84 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +-----------------------COMP_of:N-N-----------------------+ | | +--------------------MOD:V_PASS-ADV--------------------+ | +-----------COMP_on:N-N-----------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD:V_PASS-ADV (turned,co-ordinately) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 85 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (GENEXXX,GENEXXX) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) OBJ:V-N (show,transcription) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 86 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 87 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +-----------COMP_on:N-N-----------+ | | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (extension,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 88 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) OBJ:V-N (sets,four) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (work,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 89 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 90 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +---------------------------COMP_of:N-N---------------------------+ +------COMP_on:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_on:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_on:V-N (show,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_on:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 91 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_of:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 92 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +---------------------------COMP_of:N-N---------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 93 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 94 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 95 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-N (sets,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (show,that) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 96 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 97 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 98 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | | +-----------------------------------APPOS-----------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) APPOS (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 99 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | | +-----------------------------------APPOS-----------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 100 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | +---------MOD_ATT:N-N--------+ | +-----------------------OBJ:V-N----------------------+ | | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (genes,mother-cell) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,that) OBJ:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (transcription,A) Parse 101 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | +---------MOD_ATT:N-N--------+ | +-----------------------COMP_of:N-N-----------------------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V-N (show,GENEXXX) Parse 102 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | | +--------------------------------------------------APPOS-------------------------------------------------+ | | | +--------------------------------------------APPOS-------------------------------------------+ | | +---------------------COMP_in:V-N--------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 103 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------COMP_of:V-N----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 104 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (sets,controlled) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 105 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | +---------MOD_ATT:N-N--------+ | +-----------------------OBJ:V-N----------------------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,A) COMP_of:V-N (show,GENEXXX) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) OBJ:V-N (sets,cascade) COMP_of:V-N (show,GENEXXX) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 106 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) COMP_in:V-N (show,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (transcription,A) Parse 107 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | +---------MOD_ATT:N-N--------+ | +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_of:V-N (show,GENEXXX) COMP_of:N-N (cascade,four) OBJ:V-N (show,that) OBJ:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:V-N (show,GENEXXX) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 108 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------COMP_on:N-N-----------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) Parse 109 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) Parse 110 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) Parse 111 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,work) Parse 112 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) Parse 113 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +-----------COMP_on:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | | +------COMP_on:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_on:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_on:V-N (show,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_on:V-N (show,GENEXXX) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_on:V-N (show,GENEXXX) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 114 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 115 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (show,work) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) Parse 116 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_in:V-N (sets,cascade) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 117 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | +--------------------MOD:V_PASS-ADV--------------------+ | +-----------------------COMP_of:N-N-----------------------+ | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD:V_PASS-ADV (turned,co-ordinately) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 118 +----------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------COMP_of:V-N-------------------------------------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +----------------SUBJ:V-N---------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +---OBJ:V-N--+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:V_P+ +MOD_ATT:N+ +MOD:+ +-MOD:V-ADV-+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V-N (controlled,cascade) COMP_in:V-N (controlled,extension) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) OBJ:V-N (controlled,sets) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) MOD:V_PASS-ADV (turned,in) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) COMP_of:V-N (controlled,work) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (controlled,co-ordinately) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 119 +----------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------COMP_of:V-N-------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------SUBJ:V-N---------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +---OBJ:V-N--+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:V_P+ +MOD_ATT:N+ +MOD:+ +-MOD:V-ADV-+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-N (sets,gene) SUBJ:V-N (controlled,cascade) COMP_in:V-N (controlled,extension) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) MOD:V_PASS-ADV (turned,in) COMP_on:N-N (work,transcription) COMP_of:V-N (controlled,work) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) OBJ:V-N (controlled,sets) MOD:V-ADV (controlled,co-ordinately) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 120 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 121 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 122 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 123 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 124 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 125 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (work,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) Parse 126 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (extension,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 127 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 128 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) Parse 129 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 130 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (work,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 131 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (extension,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) Parse 132 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ +-----------------------OBJ:V-N----------------------+ | | +-----------COMP_of:V-N----------+ +-------------SUBJ:V_PASS-N-------------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 133 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 134 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 135 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 136 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 137 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 138 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 139 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 140 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 141 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 142 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 143 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ | | | | +-----------COMP_of:V-N----------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) COMP_of:V-N (show,work) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 144 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ | | | | +-----------COMP_of:V-N----------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,work) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 145 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_of:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) OBJ:V-N (sets,four) SUBJ:V-N (show,we) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 146 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 147 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +------------------------------------COMP_on:N-N-----------------------------------+ +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (transcription,A) Parse 148 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_on:N-N--------------------------------------------+ | +-----------COMP_on:N-N-----------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_on:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) Parse 149 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------COMP_of:V-N----------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 150 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) COMP_in:V-N (show,GENEXXX) Parse 151 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 152 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------OBJ:V-N----------------------+ | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (work,A) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) Parse 153 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_on:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 154 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) APPOS (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 155 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) APPOS (extension,GENEXXX) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 156 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 157 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 158 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_of:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 159 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | +---------MOD_ATT:N-N--------+ | +-----------------------OBJ:V-N----------------------+ | | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,that) OBJ:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V-N (show,GENEXXX) Parse 160 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) OBJ:V-N (sets,four) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 161 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 162 +----------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------COMP_of:V-N-------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+-------SUBJ:V-N------+---OBJ:V-N--+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+MOD_+ +MOD:+ +-MOD:V-ADV-+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (sets,gene) COMP_in:V-N (controlled,extension) SUBJ:V_PASS-N (turned,genes) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (controlled,four) APPOS (transcription,GENEXXX) COMP_of:V-N (controlled,work) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_POST:N-ADJ (cascade,of) COMP_in:V_PASS-N (turned,cascade) OBJ:V-N (controlled,sets) MOD:V-ADV (controlled,co-ordinately) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 163 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +-----------COMP_on:V-N----------+ | | +---------MOD_ATT:N-N--------+ | | | | | +------COMP_on:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_on:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_on:V-N (show,GENEXXX) COMP_on:V-N (show,GENEXXX) Parse 164 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +-----------COMP_on:N-N-----------+ +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 165 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (transcription,A) Parse 166 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------COMP_on:N-N-----------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 167 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +-----------------------OBJ:V-N----------------------+ | | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,that) OBJ:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) COMP_on:V-N (show,transcription) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,A) Parse 168 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (transcription,A) Parse 169 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------------------COMP_of:N-N-----------------------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) Parse 170 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) Parse 171 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | +---------MOD_ATT:N-N--------+ | +-------------SUBJ:V_PASS-N-------------+ | | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | | +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,A) MOD_ATT:N-N (GENEXXX,genes) COMP_of:V-N (show,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-N (GENEXXX,genes) OBJ:V-N (sets,cascade) COMP_of:V-N (show,GENEXXX) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 172 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-----------COMP_on:N-N-----------+ | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (genes,mother-cell) Parse 173 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_on:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_on:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_on:N-N--------------------------------------------+ | | | +-----------COMP_on:N-N-----------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) COMP_on:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,A) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_on:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (extension,GENEXXX) Parse 174 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) Parse 175 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,work) Parse 176 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_on:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) COMP_of:N-N (transcription,A) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 177 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------COMP_of:V_PASS-N-------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,extension) MOD_ATT:N-N (sets,gene) COMP_of:V_PASS-N (turned,work) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (cascade,sets) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 178 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 179 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 180 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 181 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (turned,on) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,transcription) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 182 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 183 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (sets,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 184 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +--------------------MOD:V_PASS-ADV--------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:N-N (genes,formation) MOD:V_PASS-ADV (turned,co-ordinately) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 185 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (GENEXXX,GENEXXX) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 186 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (turned,on) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,transcription) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 187 +----------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------COMP_of:V-N-------------------------------------------------------------------------------------------------------------+ | | +-----------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+-------SUBJ:V-N------+---OBJ:V-N--+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+MOD_+ +MOD:+ +-MOD:V-ADV-+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_on:V-N (controlled,transcription) MOD_ATT:N-N (A,gene) COMP_in:V-N (controlled,extension) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) OBJ:V-N (controlled,sets) MOD_POST:N-ADJ (cascade,of) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) SUBJ:V-N (controlled,four) MOD:ADJ-ADV (four,least) COMP_of:V-N (controlled,work) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD:V-ADV (controlled,co-ordinately) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (genes,mother-cell) Parse 188 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_of:V-N (sets,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 189 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +--------------------MOD:V_PASS-ADV--------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (cascade,four) MOD:V_PASS-ADV (turned,co-ordinately) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (genes,mother-cell) Parse 190 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 191 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,work) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (GENEXXX,GENEXXX) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 192 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (extension,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 193 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (extension,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 194 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 195 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) Parse 196 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------OBJ:V-N----------------------+ +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 197 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | +--------------------------------COMP_of:N-N--------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 198 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------OBJ:V-N----------------------+ +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (extension,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 199 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 200 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 201 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) Parse 202 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ | | | | +-----------COMP_of:V-N----------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,work) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 203 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ +-----------------------OBJ:V-N----------------------+ | | | +-----------COMP_of:V-N----------+ +-------------SUBJ:V_PASS-N-------------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 204 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ | | | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,work) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 205 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | | +------------------------------------COMP_on:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_on:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 206 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (show,that) OBJ:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_of:N-N (transcription,A) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 207 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (GENEXXX,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) OBJ:V-N (show,that) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_of:N-N (transcription,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 208 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +---------------------------COMP_of:N-N---------------------------+ +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 209 +-----------------------OBJ:V-N----------------------+ +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 210 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (transcription,A) Parse 211 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | +--------------------------------------------APPOS-------------------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_on:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,A) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 212 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | | | +-----------COMP_of:V-N----------+ | | | +---------MOD_ATT:N-N--------+ | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-N (formation,coat) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_on:N-N (work,transcription) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) Parse 213 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +-----------COMP_on:N-N-----------+ | | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) APPOS (extension,GENEXXX) Parse 214 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 215 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:V-N (show,GENEXXX) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 216 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | | +-----------------------------------APPOS-----------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) APPOS (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) Parse 217 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 218 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | +---------MOD_ATT:N-N--------+ | +-----------------------OBJ:V-N----------------------+ | | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,that) OBJ:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V-N (show,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 219 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------------------COMP_of:N-N-----------------------+ +---------MOD_ATT:N-N--------+ | +-----------COMP_on:N-N-----------+ | | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (sets,four) COMP_of:N-N (extension,A) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V-N (show,GENEXXX) COMP_in:N-N (genes,formation) Parse 220 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 221 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | | +--------------------------------------------------APPOS-------------------------------------------------+ | | | +--------------------------------------------APPOS-------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) OBJ:V-N (show,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) COMP_in:V_PASS-N (turned,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:N-N (cascade,sets) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 222 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (transcription,GENEXXX) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 223 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | | +--------------------------------------------------APPOS-------------------------------------------------+ | | | +--------------------------------------------APPOS-------------------------------------------+ | | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 224 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD:ADJ-ADV (four,least) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 225 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | +-----------------------------------APPOS-----------------------------------+ | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) COMP_in:V-N (sets,cascade) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 226 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | | +------------------------------------COMP_on:N-N-----------------------------------+ | | | +-----------------------OBJ:V-N----------------------+ | | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) COMP_on:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (transcription,A) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) Parse 227 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (GENEXXX,recent) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) APPOS (extension,GENEXXX) Parse 228 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +-----------COMP_on:N-N-----------+ | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-N (GENEXXX,genes) OBJ:V-N (sets,four) COMP_of:N-N (extension,A) SUBJ:V-N (show,we) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) Parse 229 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | +-----------------------COMP_of:N-N-----------------------+ +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,GENEXXX) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (extension,A) SUBJ:V-N (show,we) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) Parse 230 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) Parse 231 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------COMP_of:N-N-----------------------+ +-----------COMP_in:V-N----------+ +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) Parse 232 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 233 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 234 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | +-----------------------OBJ:V-N----------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 235 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | | | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (controlled,four) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 236 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 237 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ | +-----------------------------------------------------------------COMP_on:V_PASS-N-----------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) COMP_on:V_PASS-N (turned,transcription) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,extension) MOD_ATT:N-N (sets,gene) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (cascade,sets) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 238 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +-----------------------COMP_of:N-N-----------------------+ | | | +-----------COMP_on:N-N-----------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) OBJ:V-N (show,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) COMP_in:V_PASS-N (turned,extension) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:N-N (extension,A) COMP_of:N-N (cascade,sets) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) Parse 239 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +-----------------------COMP_of:N-N-----------------------+ | | | +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) OBJ:V-N (show,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) COMP_in:V_PASS-N (turned,extension) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_of:N-N (extension,A) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) Parse 240 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +-----------COMP_on:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | | +------COMP_on:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_on:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_on:V-N (show,GENEXXX) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_on:V-N (show,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_on:V-N (show,GENEXXX) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 241 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 242 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 243 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 244 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +-----------------------COMP_of:N-N-----------------------+ | | | +-----------COMP_on:N-N-----------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 245 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) Parse 246 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) COMP_of:N-N (work,GENEXXX) SUBJ:V-N (show,we) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (genes,mother-cell) Parse 247 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---------------------COMP_in:V-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 248 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (turned,on) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,that) OBJ:V-N (show,work) COMP_of:N-N (work,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 249 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +--------------------MOD:V_PASS-ADV--------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD:V_PASS-ADV (turned,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 250 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (transcription,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (show,transcription) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 251 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 252 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V_PASS-ADV (turned,on) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_of:V-N (sets,four) COMP_in:V-N (sets,cascade) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 253 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 254 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,transcription) OBJ:V-N (show,that) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (turned,transcription) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 255 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 256 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 257 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD:V_PASS-ADV (turned,on) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 258 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) COMP_of:N-N (work,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 259 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 260 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +--------------------MOD:V_PASS-ADV--------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | | +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD:V_PASS-ADV (turned,co-ordinately) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 261 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (transcription,four) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 262 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_in:V-N (sets,cascade) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 263 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,transcription) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 264 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +--------------------MOD:V_PASS-ADV--------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | | +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V_PASS-ADV (turned,co-ordinately) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:V-N (sets,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 265 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +-----------COMP_on:N-N-----------+ | | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 266 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (work,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) Parse 267 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 268 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 269 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 270 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) Parse 271 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 272 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (work,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 273 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,mother-cell) Parse 274 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 275 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) Parse 276 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 277 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 278 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +---------------------------COMP_of:N-N---------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 279 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 280 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | | | +-----------COMP_of:V-N----------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:V-N (show,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (show,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 281 +-----------------------OBJ:V-N----------------------+ +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_on:N-N-----------------------------------+ +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (transcription,A) Parse 282 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------COMP_of:V-N----------+ | | +---------MOD_ATT:N-N--------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:V-N (show,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_on:N-N (work,transcription) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 283 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 284 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | | | | +---------MOD_ATT:N-N--------+ | +-----------------------OBJ:V-N----------------------+ | | | | +-----------COMP_of:V-Nf:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) OBJ:V-N (sets,cascade) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,GENEXXX) Parse 285 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) APPOS (extension,GENEXXX) Parse 286 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) Parse 287 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | +---------MOD_ATT:N-N--------+ | | | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V-N (show,GENEXXX) Parse 288 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 289 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 290 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 291 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | | +-----------------------------------APPOS-----------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) OBJ:V-N (show,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) APPOS (transcription,GENEXXX) COMP_in:V_PASS-N (turned,extension) SUBJ:V-N (show,we) APPOS (transcription,GENEXXX) OBJ:V-N (sets,four) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 292 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) COMP_of:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,extension) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) OBJ:V-N (sets,four) COMP_in:V_PASS-N (turned,cascade) OBJ:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) SUBJ:V-N (show,we) Parse 293 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | +--------------------MOD:V_PASS-ADV--------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) APPOS (transcription,GENEXXX) MOD:V_PASS-ADV (turned,co-ordinately) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 294 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 295 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +------------------------------------COMP_on:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 296 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,A) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) APPOS (extension,GENEXXX) Parse 297 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 298 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_on:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) OBJ:V-N (show,work) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 299 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-N (sets,gene) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) Parse 300 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------COMP_on:N-N-----------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) COMP_of:N-N (transcription,A) Parse 301 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | +---------MOD_ATT:N-N--------+ | | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+---MOD_ATT:N-N--+ +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-N (GENEXXX,genes) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:V-N (show,GENEXXX) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) OBJ:V-N (sets,four) SUBJ:V_PASS-N (turned,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 302 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------------------COMP_of:N-N-----------------------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) Parse 303 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | +---------MOD_ATT:N-N--------+ | +-------------SUBJ:V_PASS-N-------------+ | | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-N (GENEXXX,genes) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) OBJ:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:V-N (show,GENEXXX) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (genes,mother-cell) Parse 304 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 305 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 306 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+ | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,mother-cell) Parse 307 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (extension,work) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) Parse 308 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +-----------COMP_on:V-N----------+ | | | +------COMP_on:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_on:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_on:V-N (show,GENEXXX) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_on:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) COMP_on:V-N (show,GENEXXX) Parse 309 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 310 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_on:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_on:N-N (work,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 311 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ +-----------------------OBJ:V-N----------------------+ | | | | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 312 +----------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+-------SUBJ:V-N------+---OBJ:V-N--+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+MOD_+ +MOD:+ +-MOD:V-ADV-+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) MOD_ATT:N-N (sets,gene) COMP_in:V-N (controlled,extension) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_POST:N-ADJ (cascade,of) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (controlled,four) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) OBJ:V-N (controlled,sets) MOD:V-ADV (controlled,co-ordinately) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 313 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 314 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ +---------------------COMP_in:V-N--------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 315 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 316 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 317 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) Parse 318 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 319 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 320 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) COMP_of:N-N (work,GENEXXX) SUBJ:V-N (show,we) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (genes,mother-cell) Parse 321 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 322 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_in:V-N (sets,cascade) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 323 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) COMP_in:V-N (sets,cascade) SUBJ:V-N (are,genes) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) Parse 324 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_in:V-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V_PASS-ADV (turned,on) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:V-N (sets,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 325 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD:ADJ-ADV (four,least) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 326 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) COMP_of:N-N (cascade,four) OBJ:V-N (show,transcription) OBJ:V-N (show,that) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (turned,transcription) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 327 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 328 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 329 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,that) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (work,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 330 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +--------------------MOD:V_PASS-ADV--------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | | +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD:V_PASS-ADV (turned,co-ordinately) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) SUBJ:V-N (show,we) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 331 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 332 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (extension,work) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,transcription) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (turned,genes) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 333 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V-N (sets,cascade) COMP_of:N-N (cascade,four) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 334 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 335 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 336 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 337 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 338 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (transcription,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 339 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +--------------------MOD:V_PASS-ADV--------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | | +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,transcription) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (controlled,transcription) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (genes,formation) MOD:V_PASS-ADV (turned,co-ordinately) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 340 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 341 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 342 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (extension,work) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) SUBJ:V_PASS-N (turned,work) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,transcription) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (sets,extension) SUBJ:V-N (show,we) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 343 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) Parse 344 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) Parse 345 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (extension,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 346 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 347 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (genes,mother-cell) Parse 348 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) Parse 349 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 350 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,mother-cell) Parse 351 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) Parse 352 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 353 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-N (sets,gene) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_of:N-N (cascade,sets) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 354 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 355 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 356 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | | | +-----------COMP_of:V-N----------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:V-N (show,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:V-N (show,GENEXXX) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (controlled,four) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 357 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | | | | +---------MOD_ATT:N-N--------+ | +-----------------------OBJ:V-N----------------------+ | | | | +-----------COMP_of:V-Nf:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_on:N-N (work,transcription) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) OBJ:V-N (sets,cascade) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,GENEXXX) Parse 358 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) APPOS (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 359 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | | +-----------------------------------APPOS-----------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 360 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) Parse 361 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------COMP_of:V_PASS-N-------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) APPOS (transcription,GENEXXX) COMP_in:V_PASS-N (turned,extension) COMP_of:V_PASS-N (turned,work) OBJ:V-N (show,work) OBJ:V-N (sets,four) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 362 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | | +--------------------------------------------------APPOS-------------------------------------------------+ | | | +--------------------------------------------APPOS-------------------------------------------+ | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) COMP_of:N-N (cascade,four) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 363 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (transcription,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 364 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | | +-----------------------------------APPOS-----------------------------------+ | | +--------------------MOD:V_PASS-ADV--------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | | +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (genes,formation) APPOS (transcription,GENEXXX) MOD:V_PASS-ADV (turned,co-ordinately) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 365 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,A) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) Parse 366 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,A) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) APPOS (extension,GENEXXX) COMP_of:N-N (cascade,sets) Parse 367 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) OBJ:V-N (show,that) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_of:N-N (transcription,A) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 368 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V_PASS-N (controlled,four) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) COMP_of:V-N (show,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) OBJ:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 369 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | | | | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:V-N (show,work) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (sets,four) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 370 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+ | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 371 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | +---------MOD_ATT:N-N--------+ | +-----------------------OBJ:V-N----------------------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,A) MOD_ATT:N-N (GENEXXX,genes) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) COMP_of:V-N (show,GENEXXX) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) Parse 372 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) Parse 373 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,work) Parse 374 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 375 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) COMP_in:V_PASS-N (turned,extension) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) OBJ:V-N (show,work) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) Parse 376 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +-----------------------COMP_of:N-N-----------------------+ | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) OBJ:V-N (show,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) COMP_in:V_PASS-N (turned,extension) SUBJ:V-N (show,we) OBJ:V-N (sets,four) COMP_of:N-N (extension,A) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) Parse 377 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 378 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 379 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +-----------------------COMP_of:N-N-----------------------+ | | | +-----------COMP_on:N-N-----------+ | | | +------------SUBJ:V_PASS-N-----------+ | +---COMP_of:N-N--+ | | +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_of:N-N (extension,A) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 380 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 381 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 382 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 383 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 384 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 385 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) MOD:ADJ-ADV (four,least) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 386 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (work,GENEXXX) SUBJ:V-N (show,we) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (genes,mother-cell) Parse 387 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD:V-ADV (sets,co-ordinately) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,transcription) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (turned,genes) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 388 +----------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------COMP_of:V-N-------------------------------------------------------------------------------------------------------------+ | | +-----------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------MOD:V-ADV--------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ | +-------SUBJ:V-N------+---OBJ:V-N--+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+MOD_+ | | +-MOD:V-ADV-+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) COMP_in:V-N (controlled,extension) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (controlled,sets) COMP_of:V-N (controlled,work) MOD_POST:N-ADJ (cascade,of) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (involved,formation) SUBJ:V-N (controlled,four) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (controlled,co-ordinately) MOD:V-ADV (controlled,least) COMP_of:N-N (transcription,A) COMP_on:V-N (controlled,transcription) OBJ:V-N (show,transcription) Parse 389 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD:V_PASS-ADV (turned,on) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 390 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) Parse 391 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 392 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_in:V-N (sets,cascade) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 393 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 394 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 395 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:V-N (sets,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 396 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (transcription,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 397 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) COMP_of:V-N (sets,work) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 398 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +--------------------MOD:V_PASS-ADV--------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | | +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) SUBJ:V_PASS-N (controlled,transcription) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (involved,formation) MOD:V_PASS-ADV (turned,co-ordinately) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (genes,mother-cell) Parse 399 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (sets,transcription) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) SUBJ:V_PASS-N (controlled,transcription) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (transcription,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 400 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) COMP_of:V-N (sets,work) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,transcription) COMP_of:N-N (work,four) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (turned,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 401 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 402 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 403 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) Parse 404 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 405 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 406 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 407 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) Parse 408 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (work,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,work) Parse 409 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,GENEXXX) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 410 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) Parse 411 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | +---MOD_ATT:N-ADJ---+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) MOD_ATT:N-ADJ (genes,mother-cell) Parse 412 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 413 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_on:N-N-------------------------------------------------------+ | +-------------------------------------------------COMP_on:N-N-------------------------------------------------+ | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_on:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_on:N-N (extension,GENEXXX) Parse 414 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | | +------------------------------------COMP_on:N-N-----------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 415 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 416 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-----------------------COMP_of:N-N-----------------------+ +-----------COMP_in:V-N----------+ +-----------COMP_on:N-N-----------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | +COMP_in:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) COMP_in:V-N (show,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:V-N (show,GENEXXX) Parse 417 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------COMP_of:V-N----------+ | | +---------MOD_ATT:N-N--------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_of:V-N (show,work) Parse 418 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_on:N-N--------------------------------------------+ | | | +-----------COMP_on:N-N-----------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,A) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_on:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) APPOS (extension,GENEXXX) Parse 419 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) APPOS (extension,GENEXXX) COMP_of:N-N (cascade,sets) Parse 420 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_in:V-N (show,extension) COMP_of:N-N (cascade,sets) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 421 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 422 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+ | | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) APPOS (extension,GENEXXX) Parse 423 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) Parse 424 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +--------------------------------------------------APPOS-------------------------------------------------+ | | +--------------------------------------------APPOS-------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) APPOS (work,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (work,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) Parse 425 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) APPOS (extension,GENEXXX) Parse 426 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) APPOS (extension,GENEXXX) Parse 427 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------COMP_in:V-N----------+ | +---------MOD_ATT:N-N--------+ | +-----------COMP_on:N-N-----------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) OBJ:V-N (sets,four) SUBJ:V_PASS-N (turned,genes) COMP_in:V-N (show,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 428 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +----------------------------------------------------------APPOS----------------------------------------------------------+ | +----------------------------------------------------APPOS----------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +-----------------------OBJ:V-N----------------------+ +-----------------------COMP_of:N-N-----------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) APPOS (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) APPOS (extension,GENEXXX) Parse 429 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 430 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 431 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) COMP_in:V_PASS-N (involved,formation) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 432 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_on:N-N--------------------------------------------+ | +-----------COMP_on:N-N-----------+ | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_on:N-N (extension,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 433 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------COMP_of:V_PASS-N-------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_on:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_in:V_PASS-N (turned,extension) COMP_of:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 434 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_on:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 435 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +---------------------COMP_in:V-N--------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_on:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) COMP_in:V-N (sets,cascade) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 436 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:N-N (cascade,sets) Parse 437 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,work) Parse 438 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V_PASS-N (turned,extension) SUBJ:V-N (show,we) OBJ:V-N (show,work) COMP_of:N-N (cascade,sets) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 439 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) OBJ:V-N (show,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (sets,gene) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) COMP_in:V_PASS-N (turned,extension) SUBJ:V-N (show,we) COMP_of:N-N (cascade,sets) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 440 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------COMP_of:V_PASS-N-------------------------------------------------------------------------+ | | +-----------------------------------------------------------------COMP_on:V_PASS-N-----------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_on:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (cascade,four) COMP_in:V_PASS-N (turned,extension) OBJ:V-N (show,that) COMP_of:V_PASS-N (turned,work) OBJ:V-N (sets,four) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 441 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 442 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 443 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) Parse 444 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 445 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-N (genes,mother-cell) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 446 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 447 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V_PASS-ADV (turned,on) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:V-N (sets,cascade) COMP_of:N-N (cascade,four) SUBJ:V-N (show,we) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 448 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +---------------------COMP_in:V-N--------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-N (genes,mother-cell) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-N (gene,GENEXXX) Parse 449 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 450 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (transcription,four) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,transcription) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (turned,transcription) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,A) Parse 451 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) Parse 452 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,transcription) COMP_of:N-N (work,four) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 453 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 454 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) COMP_on:V-N (sets,transcription) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 455 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) COMP_of:V-N (sets,four) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 456 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:V-N (sets,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 457 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 458 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,cascade) COMP_of:N-N (cascade,four) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 459 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_in:V-N (sets,cascade) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 460 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,work) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (GENEXXX,GENEXXX) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) Parse 461 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) Parse 462 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (are,work) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 463 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (transcription,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 464 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V_PASS-N (controlled,transcription) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:V-N (sets,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 465 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------------COMP_of:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 466 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (work,GENEXXX) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) Parse 467 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,work) Parse 468 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) Parse 469 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,work) Parse 470 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ | | | | +-----------COMP_of:V-N----------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,work) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) Parse 471 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ | | | | +-----------COMP_of:V-N----------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,work) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) Parse 472 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +-------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | +-------------------------------------------------COMP_of:N-N-------------------------------------------------+ | | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (work,A) OBJ:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-ADJ (GENEXXX,recent) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) Parse 473 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------COMP_of:V-N----------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ +MOD_ATT:N-AD+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+ +MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,A) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (sets,controlled) MOD_ATT:N-N (sets,gene) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_of:V-N (show,work) Parse 474 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | +-----------------------COMP_of:N-N-----------------------+ | | +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+ | | +------COMP_in:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | +COMP_in:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (show,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_in:V-N (show,GENEXXX) Parse 475 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 476 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 477 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 478 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (transcription,GENEXXX) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 479 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 480 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) OBJ:V-N (show,that) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 481 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------COMP_of:V-N----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 482 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ +--------------------------------------------COMP_of:N-N--------------------------------------------+ | +-----------------------COMP_of:N-N-----------------------+ | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (extension,A) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 483 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ | | | | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | | +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) APPOS (GENEXXX,GENEXXX) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,work) Parse 484 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | | | +-----------COMP_of:V-N----------+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | | | +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) Parse 485 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +-----------COMP_on:V-N----------+ +-----------------------OBJ:V-N----------------------+ | | | | +------COMP_on:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_on:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_on:V-N (show,GENEXXX) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_on:V-N (show,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_on:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 486 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------COMP_of:V_PASS-N-------------------------------------------------------------------------+ | | +-----------------------------------------------------------------COMP_on:V_PASS-N-----------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_on:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) OBJ:V-N (sets,cascade) COMP_in:V_PASS-N (turned,extension) OBJ:V-N (show,that) COMP_of:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 487 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ +---------------------COMP_in:V-N--------------------+ +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_in:V-N (sets,cascade) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 488 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) OBJ:V-N (show,work) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) Parse 489 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (genes,mother-cell) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (extension,A) MOD_ATT:N-N (gene,GENEXXX) Parse 490 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_in:V-N--------------------+ +---COMP_of:N-N--+---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) OBJ:V-N (show,extension) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) Parse 491 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) SUBJ:V-N (show,we) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 492 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 493 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 494 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 495 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 496 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_in:V-N--------------------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) MOD:ADJ-ADV (controlled,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 497 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V_PASS-N (controlled,transcription) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 498 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +--------------------MOD:V_PASS-ADV--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (turned,co-ordinately) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 499 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (extension,work) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (turned,work) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (sets,extension) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 500 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 501 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (sets,cascade) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 502 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) COMP_of:N-N (transcription,four) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (controlled,transcription) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,transcription) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,A) Parse 503 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 504 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (transcription,four) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 505 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:N-N (transcription,cascade) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (show,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 506 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,cascade) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (controlled,four) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 507 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 508 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 509 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (transcription,four) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,transcription) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 510 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 511 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ +-----------COMP_on:N-N-----------+ | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) Parse 512 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------COMP_of:V-N-------------------------------+ | | | +-----------COMP_of:V-N----------+ | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) SUBJ:V_PASS-N (turned,genes) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (GENEXXX,genes) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:V-N (show,work) Parse 513 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ | | | | +-----------COMP_of:V-N----------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+--------------OBJ:V-N-------------+ | | | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) COMP_of:V-N (show,work) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 514 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_on:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 515 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ +------COMP_on:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_on:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_on:V-N (show,GENEXXX) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_on:V-N (show,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 516 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | | +-----------------------------------APPOS-----------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 517 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | | +-----------------------------------APPOS-----------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 518 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +-----------------------------------------APPOS-----------------------------------------+ | | | +-----------------------------------APPOS-----------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 519 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 520 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (transcription,GENEXXX) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 521 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (transcription,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 522 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_on:N-N----------------------------------------------+ | | +-----------------------------------------COMP_on:N-N----------------------------------------+ | | | +------------------------------------COMP_on:N-N-----------------------------------+ | | | | | +---------MOD_ATT:N-N--------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_on:N-N (work,GENEXXX) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) COMP_on:N-N (work,GENEXXX) MOD:ADJ-ADV (controlled,co-ordinately) MOD:V-ADV (least,four) COMP_of:V-N (show,work) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) COMP_on:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) OBJ:V-N (sets,four) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 523 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ | | +---------MOD_ATT:N-N--------+ | +-----------COMP_on:N-N-----------+ | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+---MOD_ATT:N-N--+ +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) COMP_of:V-N (show,GENEXXX) COMP_of:N-N (cascade,four) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:V-N (show,GENEXXX) COMP_in:V_PASS-N (turned,cascade) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) OBJ:V-N (sets,four) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) Parse 524 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | +-----------------------COMP_of:N-N-----------------------+ | | | +-----------COMP_on:N-N-----------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) OBJ:V-N (show,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) COMP_of:N-N (cascade,four) COMP_in:V_PASS-N (turned,extension) SUBJ:V-N (show,we) OBJ:V-N (sets,four) COMP_of:N-N (extension,A) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) Parse 525 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 526 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 527 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---------------------COMP_in:V-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 528 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 529 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 530 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 531 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 532 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:V-N (sets,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 533 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) OBJ:V-N (show,work) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) Parse 534 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 535 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 536 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) SUBJ:V-N (show,we) SUBJ:V_PASS-N (turned,work) COMP_in:V-N (sets,cascade) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 537 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +------------COMP_of:V-N-----------+ | +---------------COMP_of:N-N--------------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (genes,mother-cell) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) Parse 538 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 539 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (GENEXXX,GENEXXX) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) SUBJ:V_PASS-N (turned,transcription) OBJ:V-N (show,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 540 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) COMP_on:V-N (sets,transcription) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 541 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:V-N (sets,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 542 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_in:V-N--------------------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (gene,controlled) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_in:V_PASS-N (involved,formation) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 543 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 544 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) MOD:V_PASS-ADV (turned,on) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_of:N-N (transcription,four) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) OBJ:V-N (show,that) COMP_of:V-N (sets,work) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 545 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (transcription,cascade) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) SUBJ:V_PASS-N (controlled,cascade) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 546 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 547 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 548 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +--------------------------------COMP_of:V-N-------------------------------+ | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ +-----------COMP_on:N-N-----------+ | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD:ADJ-ADV (controlled,co-ordinately) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) Parse 549 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 550 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-----------------------------------------------COMP_of:N-N----------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +-----------------------OBJ:V-N----------------------+ | +------------------------------------COMP_of:N-N-----------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (sets,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (work,GENEXXX) COMP_in:V-N (show,extension) COMP_of:N-N (work,GENEXXX) OBJ:V-N (show,that) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:V-N (show,work) Parse 551 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | +--------------------------------------COMP_of:N-N--------------------------------------+ | | | +--------------------------------COMP_of:N-N--------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (sets,four) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) COMP_in:V-N (show,extension) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,work) Parse 552 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ | | | | +-----------COMP_of:V-N----------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_of:N-N--------------------+ | | | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+MOD_+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) COMP_on:V-N (show,transcription) MOD:V-ADV (least,four) COMP_of:V-N (show,work) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,sets) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (sets,gene) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:V-N (show,extension) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) Parse 553 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | +-------------------------------------------------MOD_ATT:N-ADJ------------------------------------------------+ | | +-------------------------------------------MOD_ATT:N-ADJ------------------------------------------+ | | | | | +-----------COMP_of:V-N----------+ +-----------------------OBJ:V-N----------------------+ | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD_ATT:N-ADJ (GENEXXX,recent) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (GENEXXX,genes) COMP_of:V-N (show,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (GENEXXX,recent) MOD:ADJ-ADV (four,least) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD:ADJ-ADV (controlled,co-ordinately) MOD_ATT:N-ADJ (GENEXXX,recent) COMP_on:N-N (work,transcription) COMP_of:N-N (cascade,four) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (sets,cascade) OBJ:V-N (show,that) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) COMP_of:V-N (show,GENEXXX) COMP_of:V-N (show,work) Parse 554 +----------------------------------------------------------------------------------COMP_in:V_PASS-N----------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------COMP_of:V_PASS-N-------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | +-----------------------------------APPOS-----------------------------------+ | | | +-----------------------OBJ:V-N----------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (transcription,GENEXXX) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) APPOS (transcription,GENEXXX) COMP_in:V_PASS-N (turned,extension) OBJ:V-N (sets,cascade) COMP_of:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,A) Parse 555 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 556 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 557 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | +-----------------------------------APPOS-----------------------------------+ | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) COMP_in:V-N (sets,cascade) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 558 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | +---------------------COMP_in:V-N--------------------+ | | +-----------------------------------APPOS-----------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) COMP_in:V_PASS-N (involved,formation) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) COMP_in:V-N (sets,cascade) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 559 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (work,four) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 560 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (work,four) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 561 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +------------------------------------COMP_on:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) MOD:ADJ-ADV (controlled,co-ordinately) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,work) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) APPOS (GENEXXX,GENEXXX) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) OBJ:V-N (show,that) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) SUBJ:V-N (show,we) COMP_of:N-N (transcription,A) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) Parse 562 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_on:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) Parse 563 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +------------------------------------COMP_on:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 564 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +------------------------------------COMP_on:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 565 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 566 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 567 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 568 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) COMP_in:N-N (transcription,cascade) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (show,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 569 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | +-----------COMP_on:N-N-----------+---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_on:N-N (extension,transcription) SUBJ:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 570 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 571 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 572 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 573 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) COMP_of:V-N (sets,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 574 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 575 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) Parse 576 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) Parse 577 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (transcription,cascade) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) SUBJ:V_PASS-N (controlled,cascade) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 578 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 579 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:V-N (sets,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 580 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (transcription,cascade) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 581 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +--------------------MOD:V_PASS-ADV--------------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V_PASS-ADV (turned,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:V-N (sets,work) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 582 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) OBJ:V-N (show,transcription) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 583 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) SUBJ:V-N (are,genes) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD:V-ADV (sets,co-ordinately) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) APPOS (GENEXXX,GENEXXX) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (are,work) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (show,we) OBJ:V-N (show,transcription) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 584 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (transcription,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 585 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ +---------------------------------------------------------------OBJ:V-N--------------------------------------------------------------+ | +--------------------------------------------COMP_of:N-N--------------------------------------------+ | | | +--------------------------------------MOD_ATT:N-ADJ-------------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------COMP_in:V-N--------------------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (extension,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) MOD_ATT:N-ADJ (GENEXXX,recent) OBJ:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 586 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) COMP_in:V_PASS-N (involved,formation) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 587 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 588 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (transcription,GENEXXX) MOD:ADJ-ADV (controlled,co-ordinately) COMP_in:V_PASS-N (involved,formation) MOD:V-ADV (least,four) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (transcription,A) Parse 589 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) COMP_in:V_PASS-N (involved,formation) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (transcription,GENEXXX) MOD_ATT:N-N (formation,coat) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 590 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ | | | | +-------COMP_in:N-N------+ | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) APPOS (transcription,GENEXXX) OBJ:V-N (show,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:V-N (sets,four) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) MOD_ATT:N-ADJ (genes,mother-cell) Parse 591 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ +---------------------COMP_in:V-N--------------------+ | +------------------------------------COMP_on:N-N-----------------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) COMP_on:N-N (work,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-N (genes,mother-cell) MOD:ADJ-ADV (four,least) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 592 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) OBJ:V-N (show,work) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 593 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 594 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 595 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 596 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (transcription,cascade) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) MOD:V_PASS-ADV (turned,on) SUBJ:V_PASS-N (involved,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 597 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) COMP_of:V-N (sets,work) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_in:N-N (genes,formation) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V_PASS-N (turned,work) SUBJ:V-N (are,genes) OBJ:V-N (show,that) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 598 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | +MOD:+ +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) MOD_ATT:N-N (GENEXXX,genes) MOD:V_PASS-ADV (turned,on) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) OBJ:V-N (are,work) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) COMP_of:V-N (sets,work) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:V-N (sets,extension) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) SUBJ:V-N (show,we) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 599 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | | | | | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) COMP_of:N-N (work,A) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 600 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------------------------------------------------+ | | | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_of:N-N (transcription,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 601 +-------------------------------------------------------------COMP_in:V-N------------------------------------------------------------+ | +----------------------------------------------------COMP_of:V-N----------------------------------------------------+ | | +--------------------------------------------COMP_on:V-N-------------------------------------------+ | | | +--------------------------------COMP_of:V-N-------------------------------+ | | | | +-----------COMP_of:V-N----------+ | | | | | +------COMP_of:V-N-----+ +------------SUBJ:V_PASS-N-----------+ +---COMP_of:N-N---+ | | | | +----MOD_ATT:N-N----+ | | +COMP_of:V-+ +-------COMP_in:N-N------+ +-----COMP_in:V_PASS-N-----+ +MOD:+--------------OBJ:V-N-------------+ | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) SUBJ:V_PASS-N (turned,genes) COMP_on:V-N (show,transcription) COMP_of:V-N (show,work) COMP_of:V-N (show,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:V-N (show,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) OBJ:V-N (sets,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (show,A) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) COMP_of:V-N (show,GENEXXX) COMP_in:V-N (show,extension) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) MOD:V-ADV (least,four) Parse 602 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +-----------------------------------------APPOS-----------------------------------------+ | | | | | | +-----------------------------------APPOS-----------------------------------+ | | | | | | | +---------------------------COMP_of:N-N---------------------------+ | | | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | | | +-------COMP_in:N-N------+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+ | | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) APPOS (transcription,GENEXXX) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) APPOS (transcription,GENEXXX) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (genes,mother-cell) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 603 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ +--------MOD:V-ADV-------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ | +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD:V-ADV (sets,co-ordinately) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 604 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_of:N-N (cascade,four) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) Parse 605 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-N (genes,mother-cell) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 606 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | +------------------------------------COMP_of:N-N-----------------------------------+ | +------------SUBJ:V-N-----------+ | +---------------------COMP_in:V-N--------------------+ | +---------------COMP_of:N-N--------------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) COMP_of:N-N (work,A) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-N (genes,mother-cell) MOD:ADJ-ADV (four,least) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (work,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) Parse 607 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (genes,mother-cell) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 608 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-ADJ (work,recent) COMP_in:V_PASS-N (turned,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) SUBJ:V-N (show,we) SUBJ:V-N (are,genes) COMP_of:V-N (sets,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 609 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) SUBJ:V_PASS-N (controlled,cascade) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (transcription,cascade) COMP_of:N-N (cascade,four) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 610 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) SUBJ:V_PASS-N (controlled,four) MOD:V-ADV (least,four) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (are,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:V_PASS-N (turned,cascade) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 611 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . COMP_in:V_PASS-N (involved,formation) MOD_ATT:N-N (A,gene) MOD:V_PASS-ADV (controlled,co-ordinately) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_on:N-N (work,transcription) COMP_in:V-N (sets,cascade) MOD_ATT:N-N (genes,mother-cell) MOD:ADJ-ADV (four,least) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (controlled,four) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) Parse 612 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | +-----COMP_in:V_PASS-N-----+ +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) MOD:V-ADV (least,four) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:V_PASS-N (turned,cascade) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 613 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | +---COMP_of:N-N--+ +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) COMP_of:N-N (extension,work) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) COMP_of:N-N (transcription,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) OBJ:V-N (show,transcription) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 614 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_of:N-N------------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------------COMP_in:N-N---------------------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | +MOD:+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,genes) MOD_ATT:N-N (A,gene) COMP_of:N-N (transcription,four) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) MOD_ATT:N-ADJ (work,recent) MOD_ATT:N-ADJ (genes,regulatory) COMP_in:N-N (transcription,cascade) MOD:ADJ-ADV (four,least) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) MOD:ADJ-ADV (controlled,co-ordinately) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 615 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | +----------------------------------------------------------------------------OBJ:V-N---------------------------------------------------------------------------+ | | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | | +------COMP_of:N-N------+ +---MOD_ATT:N-ADJ---+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+------------COMP_of:V-N-----------+ | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+OBJ:+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) OBJ:V-N (are,work) MOD_ATT:N-N (A,gene) MOD:V-ADV (least,four) MOD_ATT:N-ADJ (cascade,regulatory) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) SUBJ:V-N (show,we) MOD_ATT:N-ADJ (genes,mother-cell) SUBJ:V_PASS-N (turned,work) COMP_of:V-N (sets,four) SUBJ:V-N (are,genes) COMP_of:V-N (sets,work) OBJ:V-N (show,that) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 616 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------------------------COMP_on:V-N-----------------------------------------------------------------------------------------------------------+ | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------------COMP_in:V-N--------------------+ | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | +------------COMP_of:V-N-----------+ | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+----SUBJ:V_PASS-N----+ | | +MOD_A+ | +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:V_PASS-+ +SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-N (A,gene) COMP_in:V-N (sets,extension) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD:V-ADV (least,four) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) COMP_on:V-N (sets,transcription) MOD_ATT:N-N (formation,coat) COMP_of:V-N (sets,work) MOD:V_PASS-ADV (controlled,co-ordinately) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_of:V-N (sets,four) COMP_in:V-N (sets,cascade) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (controlled,four) SUBJ:V-N (are,genes) SUBJ:V_PASS-N (involved,genes) SUBJ:V-N (show,we) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (genes,regulatory) MOD_ATT:N-N (genes,mother-cell) COMP_in:N-N (genes,formation) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) Parse 617 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +---------------------------------------------------------------------------------------------------COMP_of:N-N--------------------------------------------------------------------------------------------------+ | | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +---------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------+ | | | | +------------------------------------------------------OBJ:V-N------------------------------------------------------+ | | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | | | | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | | +-COMP_in:V_PASS-N+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD_ATT:N-N (A,gene) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) COMP_in:V_PASS-N (involved,formation) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) MOD_ATT:N-N (gene,GENEXXX) COMP_of:V-N (sets,work) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (work,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V_PASS-N (turned,work) OBJ:V-N (show,work) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) SUBJ:V-N (show,we) MOD_ATT:N-N (genes,mother-cell) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) Parse 618 +-----------------------------------------------------------------------------------------------------------------------------COMP_in:V-N----------------------------------------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------------------------------------------------COMP_of:V-N--------------------------------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------------------COMP_in:N-N-----------------------------------------------------------------------------------------+ | | | +-------------------------------------------------------------------SUBJ:V_PASS-N------------------------------------------------------------------+ | | | | +----------------------------------------------OBJ:V-N---------------------------------------------+ | | | | | +---------------------------COMP_of:N-N---------------------------+ | +------------SUBJ:V-N-----------+ | +---COMP_of:N-N---+ | | | +------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +--------APPOS--------+ | +-------COMP_in:N-N------+ | | | +MOD:+ | | +MOD_A+---COMP_on:N-N--+ +MOD_A+MOD+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +SUB+ +SUBJ:V+ +MOD_ATT+ | | +MOD_ATT:N+ +MOD:+ +MOD:ADJ-ADV+MOD_ATT+SUBJ+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | In extension of recent work on the transcription of GENEXXX gene A and the mother-cell regulatory genes GENEXXX , GENEXXX and GENEXXX , we show that genes involved in coat formation are turned on in a regulatory cascade of at least four co-ordinately controlled gene sets . MOD_ATT:N-ADJ (gene,controlled) MOD_ATT:N-N (genes,mother-cell) COMP_in:V-N (sets,extension) MOD_ATT:N-N (GENEXXX,genes) MOD:ADJ-ADV (controlled,co-ordinately) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (turned,transcription) MOD_ATT:N-N (A,gene) APPOS (GENEXXX,GENEXXX) MOD:ADJ-ADV (four,least) MOD_ATT:N-N (formation,coat) SUBJ:V_PASS-N (involved,genes) COMP_of:V-N (sets,work) COMP_in:N-N (genes,formation) SUBJ:V-N (sets,gene) MOD_ATT:N-ADJ (work,recent) COMP_in:N-N (work,cascade) COMP_on:N-N (work,transcription) MOD_ATT:N-ADJ (genes,regulatory) COMP_of:N-N (cascade,four) MOD_ATT:N-ADJ (cascade,regulatory) SUBJ:V-N (show,we) SUBJ:V-N (are,genes) COMP_of:N-N (transcription,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (least,four) COMP_of:N-N (transcription,A) OBJ:V-N (show,transcription) PMID: 1784821-2 Sentence 8 Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . Parse 0 +-----MOD_ATT:N-N----+---SUBJ:V_PASS-N---+ | +MOD_ATT:+ +MOD:V_P+COMP_by:V_PA+-SUBJ:V-N-+--COMP_after:V-N-+ | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . COMP_by:V_PASS-N (regulated,mechanisms) SUBJ:V_PASS-N (regulated,activities) MOD_ATT:N-N (activities,GENEXXX) MOD:V_PASS-ADV (regulated,also) COMP_after:V-N (operating,transcription) MOD_ATT:N-N (activities,GENEXXX) SUBJ:V-N (operating,mechanisms) Parse 1 +-----MOD_ATT:N-N----+---SUBJ:V_PASS-N---+-----------COMP_after:V_PASS-N-----------+ | +MOD_ATT:+ +MOD:V_P+COMP_by:V_PA+-SUBJ:V-N-+ | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . COMP_by:V_PASS-N (regulated,mechanisms) SUBJ:V_PASS-N (regulated,activities) MOD_ATT:N-N (activities,GENEXXX) MOD:V_PASS-ADV (regulated,also) SUBJ:V-N (operating,mechanisms) COMP_after:V_PASS-N (regulated,transcription) MOD_ATT:N-N (activities,GENEXXX) Parse 2 +--------------SUBJ:V_PASS-N-------------+ | +---SUBJ:V_PASS-N---+ | +MOD_ATT:+ +MOD:V_P+COMP_by:V_PA+-SUBJ:V-N-+--COMP_after:V-N-+ | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . COMP_by:V_PASS-N (regulated,mechanisms) SUBJ:V_PASS-N (regulated,activities) MOD_ATT:N-N (activities,GENEXXX) MOD:V_PASS-ADV (regulated,also) COMP_after:V-N (operating,transcription) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V-N (operating,mechanisms) Parse 3 +--------------SUBJ:V_PASS-N-------------+ | +---SUBJ:V_PASS-N---+-----------COMP_after:V_PASS-N-----------+ | +MOD_ATT:+ +MOD:V_P+COMP_by:V_PA+-SUBJ:V-N-+ | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . COMP_by:V_PASS-N (regulated,mechanisms) SUBJ:V_PASS-N (regulated,activities) MOD_ATT:N-N (activities,GENEXXX) MOD:V_PASS-ADV (regulated,also) SUBJ:V-N (operating,mechanisms) COMP_after:V_PASS-N (regulated,transcription) SUBJ:V_PASS-N (regulated,GENEXXX) Parse 4 +-----MOD_ATT:N-N----+---SUBJ:V_PASS-N---+ +-------COMP_after:N-N-------+ | +MOD_ATT:+ +MOD:V_P+COMP_by:V_PA+-SUBJ:V-N-+ | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . COMP_by:V_PASS-N (regulated,mechanisms) SUBJ:V_PASS-N (regulated,activities) MOD_ATT:N-N (activities,GENEXXX) MOD:V_PASS-ADV (regulated,also) SUBJ:V-N (operating,mechanisms) MOD_ATT:N-N (activities,GENEXXX) COMP_after:N-N (mechanisms,transcription) Parse 5 +--------------SUBJ:V_PASS-N-------------+ | +---SUBJ:V_PASS-N---+ +-------COMP_after:N-N-------+ | +MOD_ATT:+ +MOD:V_P+COMP_by:V_PA+-SUBJ:V-N-+ | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . COMP_by:V_PASS-N (regulated,mechanisms) SUBJ:V_PASS-N (regulated,activities) MOD_ATT:N-N (activities,GENEXXX) MOD:V_PASS-ADV (regulated,also) SUBJ:V-N (operating,mechanisms) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_after:N-N (mechanisms,transcription) Parse 6 +-----------COMP_after:V_PASS-N-----------+ +-----MOD_ATT:N-N----+---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N---+ | | +MOD_ATT:+ +MOD:V_P+ +MOD_ATT:N-+ | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . SUBJ:V_PASS-N (regulated,activities) MOD_ATT:N-N (operating,mechanisms) MOD_ATT:N-N (activities,GENEXXX) MOD:V_PASS-ADV (regulated,also) COMP_by:V_PASS-N (regulated,operating) COMP_after:V_PASS-N (regulated,transcription) MOD_ATT:N-N (activities,GENEXXX) Parse 7 +--------------SUBJ:V_PASS-N-------------+-----------COMP_after:V_PASS-N-----------+ | +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N---+ | | +MOD_ATT:+ +MOD:V_P+ +MOD_ATT:N-+ | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . SUBJ:V_PASS-N (regulated,activities) MOD_ATT:N-N (operating,mechanisms) MOD_ATT:N-N (activities,GENEXXX) MOD:V_PASS-ADV (regulated,also) COMP_by:V_PASS-N (regulated,operating) COMP_after:V_PASS-N (regulated,transcription) SUBJ:V_PASS-N (regulated,GENEXXX) Parse 8 +-----MOD_ATT:N-N----+---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N---+ | +MOD_ATT:+ +MOD:V_P+ +MOD_ATT:N-+--COMP_after:N-N-+ | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . SUBJ:V_PASS-N (regulated,activities) MOD_ATT:N-N (activities,GENEXXX) MOD:V_PASS-ADV (regulated,also) COMP_by:V_PASS-N (regulated,operating) MOD_ATT:N-N (activities,GENEXXX) COMP_after:N-N (operating,transcription) MOD_ATT:N-N (operating,mechanisms) Parse 9 +--------------SUBJ:V_PASS-N-------------+ | +---SUBJ:V_PASS-N---+----COMP_by:V_PASS-N---+ | +MOD_ATT:+ +MOD:V_P+ +MOD_ATT:N-+--COMP_after:N-N-+ | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . SUBJ:V_PASS-N (regulated,activities) MOD_ATT:N-N (activities,GENEXXX) MOD:V_PASS-ADV (regulated,also) COMP_by:V_PASS-N (regulated,operating) COMP_after:N-N (operating,transcription) SUBJ:V_PASS-N (regulated,GENEXXX) MOD_ATT:N-N (operating,mechanisms) Parse 10 +----------------SUBJ:V-N----------------+ +-----------OBJ:V-N----------+ | | +----------SUBJ:V-N----------+--------------COMP_after:V-N-------------+ | +-----OBJ:V-N----+ +--------OBJ:V-N--------+ | | | +SUBJ:V-+MOD+ +-COMP_by:V-N+ | | | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . OBJ:V-N (are,GENEXXX) SUBJ:V-N (are,activities) COMP_by:V-N (regulated,mechanisms) SUBJ:V-N (regulated,GENEXXX) MOD:V-ADV (are,also) COMP_after:V-N (regulated,transcription) SUBJ:V-N (regulated,GENEXXX) OBJ:V-N (regulated,operating) OBJ:V-N (are,GENEXXX) Parse 11 +----------------SUBJ:V-N----------------+ +-----------OBJ:V-N----------+ | | +----------SUBJ:V-N----------+--------------COMP_after:V-N-------------+ | +-----OBJ:V-N----+ +--------OBJ:V-N--------+ | | | +SUBJ:V-+ +MOD:V-A+-COMP_by:V-N+ | | | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . OBJ:V-N (are,GENEXXX) SUBJ:V-N (are,activities) MOD:V-ADV (regulated,also) COMP_by:V-N (regulated,mechanisms) SUBJ:V-N (regulated,GENEXXX) COMP_after:V-N (regulated,transcription) SUBJ:V-N (regulated,GENEXXX) OBJ:V-N (regulated,operating) OBJ:V-N (are,GENEXXX) Parse 12 +----------------SUBJ:V-N----------------+ | +----------SUBJ:V-N----------+--------------COMP_after:V-N-------------+ | +-----OBJ:V-N----+ +--------OBJ:V-N--------+ | | | +SUBJ:V-+ +MOD:V-A+-COMP_by:V-N+ | | | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . OBJ:V-N (regulated,operating) SUBJ:V-N (are,activities) COMP_after:V-N (regulated,transcription) MOD:V-ADV (regulated,also) SUBJ:V-N (regulated,GENEXXX) SUBJ:V-N (regulated,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_by:V-N (regulated,mechanisms) Parse 13 +----------------SUBJ:V-N----------------+ | +----------SUBJ:V-N----------+--------------COMP_after:V-N-------------+ | +-----OBJ:V-N----+ +--------OBJ:V-N--------+ | | | +SUBJ:V-+MOD+ +-COMP_by:V-N+ | | | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . OBJ:V-N (regulated,operating) SUBJ:V-N (are,activities) COMP_after:V-N (regulated,transcription) SUBJ:V-N (regulated,GENEXXX) MOD:V-ADV (are,also) SUBJ:V-N (regulated,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_by:V-N (regulated,mechanisms) Parse 14 +----------------SUBJ:V-N----------------+ +-----------OBJ:V-N----------+ | | +----------SUBJ:V-N----------+ | +-----OBJ:V-N----+ +--------OBJ:V-N--------+ | | +SUBJ:V-+MOD+ +-COMP_by:V-N+ +--COMP_after:N-N-+ | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . OBJ:V-N (are,GENEXXX) SUBJ:V-N (are,activities) COMP_by:V-N (regulated,mechanisms) SUBJ:V-N (regulated,GENEXXX) MOD:V-ADV (are,also) SUBJ:V-N (regulated,GENEXXX) OBJ:V-N (regulated,operating) OBJ:V-N (are,GENEXXX) COMP_after:N-N (operating,transcription) Parse 15 +----------------SUBJ:V-N----------------+ +-----------OBJ:V-N----------+ | | +----------SUBJ:V-N----------+ | +-----OBJ:V-N----+ +--------OBJ:V-N--------+ | | +SUBJ:V-+ +MOD:V-A+-COMP_by:V-N+ +--COMP_after:N-N-+ | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . OBJ:V-N (are,GENEXXX) SUBJ:V-N (are,activities) MOD:V-ADV (regulated,also) COMP_by:V-N (regulated,mechanisms) SUBJ:V-N (regulated,GENEXXX) SUBJ:V-N (regulated,GENEXXX) OBJ:V-N (regulated,operating) OBJ:V-N (are,GENEXXX) COMP_after:N-N (operating,transcription) Parse 16 +----------------SUBJ:V-N----------------+ | +----------SUBJ:V-N----------+ | +-----OBJ:V-N----+ +--------OBJ:V-N--------+ | | +SUBJ:V-+ +MOD:V-A+-COMP_by:V-N+ +--COMP_after:N-N-+ | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . OBJ:V-N (regulated,operating) SUBJ:V-N (are,activities) MOD:V-ADV (regulated,also) COMP_after:N-N (operating,transcription) SUBJ:V-N (regulated,GENEXXX) SUBJ:V-N (regulated,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_by:V-N (regulated,mechanisms) Parse 17 +----------------SUBJ:V-N----------------+ | +----------SUBJ:V-N----------+ | +-----OBJ:V-N----+ +--------OBJ:V-N--------+ | | +SUBJ:V-+MOD+ +-COMP_by:V-N+ +--COMP_after:N-N-+ | | | | | | | | | Both GENEXXX and GENEXXX activities are also regulated by mechanisms operating after transcription . OBJ:V-N (regulated,operating) SUBJ:V-N (are,activities) COMP_after:N-N (operating,transcription) SUBJ:V-N (regulated,GENEXXX) MOD:V-ADV (are,also) SUBJ:V-N (regulated,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_by:V-N (regulated,mechanisms) PMID: 1898930-2 Sentence 9 This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . Parse 0 +---------SUBJ:V_PASS-N--------+ | +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) COMP_in:V_PASS-N (involved,expression) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) SUBJ:V-N (are,levels) Parse 1 +---------SUBJ:V_PASS-N--------+ | +---OBJ:V-N--+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_in:V_PASS-N (involved,expression) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) SUBJ:V-N (are,levels) Parse 2 +--------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ | | +SUBJ:V_PASS+MOD:V+ +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . OBJ:V-N (factors,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) SUBJ:V_PASS-N (involved,levels) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (genes,regulon) MOD:V_PASS-ADV (involved,in) COMP_of:N-N (expression,genes) Parse 3 +---------SUBJ:V_PASS-N--------+ | +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (involved,addition) SUBJ:V-N (are,levels) Parse 4 +------------------------COMP_of:N-N------------------------+ +---------SUBJ:V_PASS-N--------+ | | +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+ | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_in:V_PASS-N (involved,expression) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (addition,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) Parse 5 +--------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ | | +SUBJ:V_PASS+MOD:V+ +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . OBJ:V-N (factors,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (involved,levels) SUBJ:V_PASS-N (regulated,GENEXXX) MOD:V_PASS-ADV (involved,in) COMP_of:N-N (expression,genes) Parse 6 +---------SUBJ:V_PASS-N--------+ | +---OBJ:V-N--+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (involved,addition) SUBJ:V-N (are,levels) Parse 7 +---SUBJ:V_PASS-N--+ +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ +COMP_in:V_PASS-N+COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (involved,GENEXXX) COMP_in:V_PASS-N (involved,expression) SUBJ:V-N (are,levels) Parse 8 +---SUBJ:V_PASS-N--+ +---OBJ:V-N--+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ +COMP_in:V_PASS-N+COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (involved,GENEXXX) COMP_in:V_PASS-N (involved,expression) SUBJ:V-N (are,levels) Parse 9 +------------------COMP_in:N-N------------------+ +---------SUBJ:V_PASS-N--------+ | | +---OBJ:V-N--+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) COMP_in:N-N (addition,expression) Parse 10 +--------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ | +COMP_to:N-N+ +SUBJ:V_PASS+MOD:V+ +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . OBJ:V-N (factors,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (involved,levels) SUBJ:V_PASS-N (regulated,GENEXXX) MOD:V_PASS-ADV (involved,in) COMP_of:N-N (expression,genes) Parse 11 +------------------COMP_of:N-N------------------+ +---SUBJ:V_PASS-N--+ | +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ +COMP_in:V_PASS-N+ | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) COMP_in:V_PASS-N (involved,expression) COMP_of:N-N (GENEXXX,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) Parse 12 +------------------COMP_in:N-N------------------+ +---------SUBJ:V_PASS-N--------+ | | +---OBJ:V-N--+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) COMP_in:N-N (addition,expression) Parse 13 +--------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ | +COMP_to:N-N+ +SUBJ:V_PASS+MOD:V+ +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . OBJ:V-N (factors,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (involved,levels) SUBJ:V_PASS-N (regulated,GENEXXX) MOD:V_PASS-ADV (involved,in) COMP_of:N-N (expression,genes) Parse 14 +---SUBJ:V_PASS-N--+ +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (genes,regulon) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) COMP_of:N-N (expression,genes) Parse 15 +-----------------------------COMP_of:N-N-----------------------------+ +---SUBJ:V_PASS-N--+ | +---OBJ:V-N--+ | | +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ +COMP_in:V_PASS-N+COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_in:V_PASS-N (involved,expression) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) COMP_of:N-N (GENEXXX,regulon) Parse 16 +--------------------------OBJ:V-N-------------------------+ | +---------OBJ:V-N--------+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ | +COMP_to:N-N+ +SUBJ:V_PASS+MOD:V+ +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . OBJ:V-N (factors,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (involved,levels) SUBJ:V_PASS-N (regulated,GENEXXX) MOD:V_PASS-ADV (involved,in) COMP_of:N-N (expression,genes) OBJ:V-N (are,addition) Parse 17 +---SUBJ:V_PASS-N--+ +---OBJ:V-N--+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) COMP_of:N-N (expression,genes) Parse 18 +--------------------------OBJ:V-N-------------------------+ | +---------OBJ:V-N--------+ +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ | +COMP_to:N-N+ +SUBJ:V_PASS+MOD:V+ +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . OBJ:V-N (factors,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) MOD_ATT:N-N (regulon,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (involved,levels) SUBJ:V_PASS-N (regulated,GENEXXX) MOD:V_PASS-ADV (involved,in) COMP_of:N-N (expression,genes) OBJ:V-N (are,addition) Parse 19 +------------------------COMP_of:N-N------------------------+ +------------------COMP_in:N-N------------------+ | +---------SUBJ:V_PASS-N--------+ | | | +---OBJ:V-N--+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | | | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (genes,regulon) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (addition,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) SUBJ:V-N (are,levels) COMP_in:N-N (addition,expression) Parse 20 +-----------------------------COMP_of:N-N-----------------------------+ +------------------COMP_of:N-N------------------+ | +---SUBJ:V_PASS-N--+ | | +---OBJ:V-N--+ | | | +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ +COMP_in:V_PASS-N+ | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_in:V_PASS-N (involved,expression) COMP_of:N-N (GENEXXX,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) COMP_of:N-N (GENEXXX,regulon) Parse 21 +---SUBJ:V_PASS-N--+ +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) COMP_in:V_PASS-N (involved,expression) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) Parse 22 +---SUBJ:V_PASS-N--+ +---OBJ:V-N--+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_in:V_PASS-N (involved,expression) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) Parse 23 +------------COMP_in:N-N------------+ +---SUBJ:V_PASS-N--+ | +---OBJ:V-N--+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) Parse 24 +---------SUBJ:V_PASS-N--------+ +---------OBJ:V-N--------+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (genes,regulon) COMP_in:V_PASS-N (involved,expression) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) OBJ:V-N (are,addition) SUBJ:V-N (are,levels) Parse 25 +------------------COMP_of:N-N------------------+ +---SUBJ:V_PASS-N--+ | +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+ | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_in:V_PASS-N (involved,expression) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (GENEXXX,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) Parse 26 +------------COMP_in:N-N------------+ +---SUBJ:V_PASS-N--+ | +---OBJ:V-N--+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) Parse 27 +---SUBJ:V_PASS-N--+ +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) Parse 28 +---------SUBJ:V_PASS-N--------+ +---------OBJ:V-N--------+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_in:V_PASS-N (involved,expression) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) OBJ:V-N (are,addition) SUBJ:V-N (are,levels) Parse 29 +-----------------------------COMP_of:N-N-----------------------------+ +---SUBJ:V_PASS-N--+ | +---OBJ:V-N--+ | | +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_in:V_PASS-N (involved,expression) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) COMP_of:N-N (GENEXXX,regulon) Parse 30 +------------------------COMP_of:N-N------------------------+ | +---SUBJ:V_PASS-N--+ | | +---OBJ:V-N--+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+ | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_in:V_PASS-N (involved,expression) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (addition,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) Parse 31 +---SUBJ:V_PASS-N--+ +---OBJ:V-N--+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) Parse 32 +------------------COMP_of:N-N------------------+ +------------COMP_in:N-N------------+ | +---SUBJ:V_PASS-N--+ | | +---OBJ:V-N--+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ | | | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) COMP_of:N-N (GENEXXX,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) Parse 33 +-----------------------------COMP_of:N-N-----------------------------+ +------------COMP_in:N-N------------+ | +---SUBJ:V_PASS-N--+ | | +---OBJ:V-N--+ | | | +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) COMP_of:N-N (GENEXXX,regulon) Parse 34 +---------SUBJ:V_PASS-N--------+ +---------OBJ:V-N--------+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (involved,addition) OBJ:V-N (are,addition) SUBJ:V-N (are,levels) Parse 35 +------------------------COMP_of:N-N------------------------+ +---------SUBJ:V_PASS-N--------+ | +---------OBJ:V-N--------+ | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+ | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_in:V_PASS-N (involved,expression) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (addition,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) OBJ:V-N (are,addition) Parse 36 +-----------------------------COMP_of:N-N-----------------------------+ +------------------COMP_of:N-N------------------+ | +---SUBJ:V_PASS-N--+ | | +---OBJ:V-N--+ | | | +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ +COMP_in:V_PASS-N+ | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_in:V_PASS-N (involved,expression) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (GENEXXX,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) COMP_of:N-N (GENEXXX,regulon) Parse 37 +---------SUBJ:V_PASS-N--------+ +---------OBJ:V-N--------+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (involved,addition) OBJ:V-N (are,addition) SUBJ:V-N (are,levels) Parse 38 +-----------------------------COMP_of:N-N-----------------------------+ +------------------COMP_of:N-N------------------+ | +------------COMP_in:N-N------------+ | | +---SUBJ:V_PASS-N--+ | | | +---OBJ:V-N--+ | | | | +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+ | +SUBJ:+ | | | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (GENEXXX,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) COMP_of:N-N (GENEXXX,regulon) Parse 39 +------------COMP_in:N-N------------+ +---SUBJ:V_PASS-N--+ | +---OBJ:V-N--+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) Parse 40 +------------COMP_in:N-N------------+ +---SUBJ:V_PASS-N--+ | +---OBJ:V-N--+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) Parse 41 +------------------COMP_in:N-N------------------+ | +---SUBJ:V_PASS-N--+ | | +---OBJ:V-N--+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) COMP_in:N-N (addition,expression) Parse 42 +------------------COMP_in:N-N------------------+ | +---SUBJ:V_PASS-N--+ | | +---OBJ:V-N--+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) COMP_in:N-N (addition,expression) Parse 43 +------------------COMP_of:N-N------------------+ +------------COMP_in:N-N------------+ | +---SUBJ:V_PASS-N--+ | | +---OBJ:V-N--+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | | | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (genes,regulon) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (GENEXXX,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) Parse 44 +------------------COMP_in:N-N------------------+ +---------SUBJ:V_PASS-N--------+ | +---------OBJ:V-N--------+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) OBJ:V-N (are,addition) COMP_in:N-N (addition,expression) Parse 45 +-----------------------------COMP_of:N-N-----------------------------+ +------------COMP_in:N-N------------+ | +---SUBJ:V_PASS-N--+ | | +---OBJ:V-N--+ | | | +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) COMP_of:N-N (GENEXXX,regulon) Parse 46 +------------------------COMP_of:N-N------------------------+ | +------------COMP_in:N-N------------+ | | +---SUBJ:V_PASS-N--+ | | | +---OBJ:V-N--+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | | | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (genes,regulon) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (addition,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) Parse 47 +------------------COMP_in:N-N------------------+ +---------SUBJ:V_PASS-N--------+ | +---------OBJ:V-N--------+ | +-----------COMP_of:N-N-----------+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | +COMP_of:N-N+ +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_of:N-N (expression,genes) MOD:V_PASS-ADV (regulated,posttranscriptionally) SUBJ:V-N (are,levels) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (expression,regulon) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) OBJ:V-N (are,addition) COMP_in:N-N (addition,expression) Parse 48 +------------------------COMP_of:N-N------------------------+ +------------------COMP_in:N-N------------------+ | | +---SUBJ:V_PASS-N--+ | | | +---OBJ:V-N--+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | | | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (genes,regulon) OBJ:V-N (are,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (addition,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) COMP_in:N-N (addition,expression) Parse 49 +-----------------------------COMP_of:N-N-----------------------------+ +------------------COMP_of:N-N------------------+ | +------------COMP_in:N-N------------+ | | +---SUBJ:V_PASS-N--+ | | | +---OBJ:V-N--+ | | | | +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | | | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . COMP_in:N-N (GENEXXX,expression) MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (are,GENEXXX) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (GENEXXX,regulon) COMP_of:N-N (GENEXXX,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,GENEXXX) SUBJ:V-N (are,levels) Parse 50 +------------------------COMP_of:N-N------------------------+ +------------------COMP_in:N-N------------------+ | +---------SUBJ:V_PASS-N--------+ | | +---------OBJ:V-N--------+ | | +-----COMP_of:N-N-----+ +SUBJ:V_PASS+-MOD:V_PASS-ADV+ +--OBJ:V-N-+COMP_to:N-N+ +SUBJ:+ | | | +MOD_ATT+ | | | | | | | | | | | | | This suggests that GENEXXX is regulated posttranscriptionally and also that factors in addition to GENEXXX levels are involved in the expression of genes of the GENEXXX regulon . MOD:V_PASS-ADV (regulated,posttranscriptionally) OBJ:V-N (factors,addition) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (genes,regulon) COMP_to:N-N (addition,GENEXXX) COMP_of:N-N (addition,genes) SUBJ:V_PASS-N (regulated,GENEXXX) SUBJ:V_PASS-N (involved,addition) SUBJ:V-N (are,levels) OBJ:V-N (are,addition) COMP_in:N-N (addition,expression) PMID: 1938874-1 Sentence 10 The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . Parse 0 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +-------------------MOD_ATT:N-ADJ------------------+ +------------------COMP_of:N-N------------------+ | | | +-------------MOD_ATT:N-ADJ------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) COMP_in:N-N (genes,compartments) Parse 1 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +-------------------MOD_ATT:N-ADJ------------------+ +------------------COMP_of:N-N------------------+ | | | +-------------MOD_ATT:N-ADJ------------+ | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) COMP_of:N-N (production,factors) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) COMP_in:N-N (genes,compartments) Parse 2 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +-------------------MOD_ATT:N-ADJ------------------+ +------------------COMP_of:N-N------------------+ | | | +-------------MOD_ATT:N-ADJ------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) COMP_in:N-N (genes,compartments) Parse 3 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +-------------------MOD_ATT:N-ADJ------------------+ +------------------COMP_of:N-N------------------+ | | | +-------------MOD_ATT:N-ADJ------------+ | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) COMP_of:N-N (production,factors) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) COMP_in:N-N (genes,compartments) Parse 4 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +-------------------MOD_ATT:N-ADJ------------------+ +------------------COMP_of:N-N------------------+ | | +-----------------MOD_PRED:N-ADJ-----------------+ | +-------------MOD_ATT:N-ADJ------------+ | +-----------COMP_in:N-N-----------+ | | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) Parse 5 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +-------------------MOD_ATT:N-ADJ------------------+ +------------------COMP_of:N-N------------------+ | | +------------------SUBJ:V_PASS-N-----------------+ | +-------------MOD_ATT:N-ADJ------------+ | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_of:N-N (production,factors) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) Parse 6 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +-------------------MOD_ATT:N-ADJ------------------+ +------------------COMP_of:N-N------------------+ | | +-----------------MOD_PRED:N-ADJ-----------------+ | +-------------MOD_ATT:N-ADJ------------+ | +-----------COMP_in:N-N-----------+ | | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) Parse 7 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | | +-------------------MOD_ATT:N-ADJ------------------+ +------------------COMP_of:N-N------------------+ | | +------------------SUBJ:V_PASS-N-----------------+ | +-------------MOD_ATT:N-ADJ------------+ | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_of:N-N (production,factors) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) MOD_ATT:N-ADJ (GENEXXX,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) Parse 8 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_in:N-N (genes,compartments) Parse 9 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) COMP_in:N-N (genes,compartments) Parse 10 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_in:N-N (genes,compartments) Parse 11 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) COMP_in:N-N (genes,compartments) Parse 12 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +------------------COMP_of:N-N------------------+ | | +-----------------MOD_PRED:N-ADJ-----------------+ | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) COMP_in:N-N (genes,compartments) Parse 13 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +------------------COMP_of:N-N------------------+ | | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) COMP_in:N-N (genes,compartments) Parse 14 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +------------------COMP_of:N-N------------------+ | | +-----------------MOD_PRED:N-ADJ-----------------+ | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) COMP_in:N-N (genes,compartments) Parse 15 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +------------------COMP_of:N-N------------------+ | | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) COMP_in:N-N (genes,compartments) Parse 16 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------MOD_PRED:N-ADJ-----------------+ +-----------------------COMP_of:N-N-----------------------+ | +-----------COMP_in:N-N-----------+ | +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (transcription,compartment-specific) Parse 17 +-----------------------------COMP_of:N-N-----------------------------+ +------------------SUBJ:V_PASS-N-----------------+ +-----------------------COMP_of:N-N-----------------------+ | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) Parse 18 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------MOD_PRED:N-ADJ-----------------+ +-----------------------COMP_of:N-N-----------------------+ | +-----------COMP_in:N-N-----------+ | +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) Parse 19 +-----------------------------COMP_of:N-N-----------------------------+ +------------------SUBJ:V_PASS-N-----------------+ +-----------------------COMP_of:N-N-----------------------+ | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) Parse 20 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ | | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) Parse 21 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +------------------SUBJ:V_PASS-N-----------------+ +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) Parse 22 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ | | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) COMP_of:N-N (production,factors) COMP_of:N-N (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) Parse 23 +-----------------------------COMP_of:N-N-----------------------------+ +-----------------------COMP_of:N-N-----------------------+ | +------------------SUBJ:V_PASS-N-----------------+ +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,production) COMP_of:N-N (production,GENEXXX) Parse 24 +-------------------------------------COMP_by:V-N------------------------------------+ +-------------------------------COMP_by:V-N------------------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ | +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_by:V-N (part,GENEXXX) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_in:N-N (genes,compartments) Parse 25 +----------------------------------------COMP_by:V_PASS-N---------------------------------------+ | +-------------------------------------COMP_by:V-N------------------------------------+ +----------------------------------COMP_by:V_PASS-N---------------------------------+ | | +-------------------------------COMP_by:V-N------------------------------+ | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (expression,genes) COMP_by:V-N (part,production) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) COMP_by:V-N (part,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) COMP_by:V_PASS-N (controlled,GENEXXX) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 26 +-------------------------------------COMP_by:V-N------------------------------------+ +-------------------------------COMP_by:V-N------------------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ | +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_by:V-N (part,GENEXXX) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_in:N-N (genes,compartments) Parse 27 +----------------------------------------COMP_by:V_PASS-N---------------------------------------+ | +-------------------------------------COMP_by:V-N------------------------------------+ +----------------------------------COMP_by:V_PASS-N---------------------------------+ | | +-------------------------------COMP_by:V-N------------------------------+ | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (expression,genes) COMP_by:V-N (part,production) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) COMP_by:V-N (part,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,GENEXXX) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 28 +-------------------------------------COMP_by:V-N------------------------------------+ +-------------------------------COMP_by:V-N------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-----------------MOD_PRED:N-ADJ-----------------+ | | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) COMP_in:N-N (genes,compartments) Parse 29 +----------------------------------------COMP_by:V_PASS-N---------------------------------------+ | +-------------------------------------COMP_by:V-N------------------------------------+ +----------------------------------COMP_by:V_PASS-N---------------------------------+ | | +-------------------------------COMP_by:V-N------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_by:V_PASS-N (controlled,GENEXXX) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (expression,genes) COMP_by:V-N (part,production) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) COMP_by:V-N (part,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 30 +-------------------------------------COMP_by:V-N------------------------------------+ +-------------------------------COMP_by:V-N------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-----------------MOD_PRED:N-ADJ-----------------+ | | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) COMP_in:N-N (genes,compartments) Parse 31 +----------------------------------------COMP_by:V_PASS-N---------------------------------------+ | +-------------------------------------COMP_by:V-N------------------------------------+ +----------------------------------COMP_by:V_PASS-N---------------------------------+ | | +-------------------------------COMP_by:V-N------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_by:V_PASS-N (controlled,GENEXXX) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (expression,genes) COMP_by:V-N (part,production) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) COMP_by:V-N (part,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 32 +-------------------------------------COMP_by:V-N------------------------------------+ +-----------------MOD_PRED:N-ADJ-----------------+ +-------------------------------COMP_by:V-N------------------------------+ | +-----------COMP_in:N-N-----------+ | | +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (transcription,compartment-specific) Parse 33 +----------------------------------------COMP_by:V_PASS-N---------------------------------------+ | +-------------------------------------COMP_by:V-N------------------------------------+ +----------------------------------COMP_by:V_PASS-N---------------------------------+ | +------------------SUBJ:V_PASS-N-----------------+ +-------------------------------COMP_by:V-N------------------------------+ | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (expression,genes) COMP_by:V-N (part,production) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) COMP_by:V-N (part,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) COMP_by:V_PASS-N (controlled,GENEXXX) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) Parse 34 +-------------------------------------COMP_by:V-N------------------------------------+ +-----------------MOD_PRED:N-ADJ-----------------+ +-------------------------------COMP_by:V-N------------------------------+ | +-----------COMP_in:N-N-----------+ | | +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) Parse 35 +----------------------------------------COMP_by:V_PASS-N---------------------------------------+ | +-------------------------------------COMP_by:V-N------------------------------------+ +----------------------------------COMP_by:V_PASS-N---------------------------------+ | +------------------SUBJ:V_PASS-N-----------------+ +-------------------------------COMP_by:V-N------------------------------+ | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (expression,genes) COMP_by:V-N (part,production) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) COMP_by:V-N (part,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,GENEXXX) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) Parse 36 +-------------------------------------COMP_by:V-N------------------------------------+ +-------------------------------COMP_by:V-N------------------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ | +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ | | | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) Parse 37 +----------------------------------------COMP_by:V_PASS-N---------------------------------------+ | +-------------------------------------COMP_by:V-N------------------------------------+ +----------------------------------COMP_by:V_PASS-N---------------------------------+ | | +-------------------------------COMP_by:V-N------------------------------+ | +------------------SUBJ:V_PASS-N-----------------+ | +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_by:V_PASS-N (controlled,GENEXXX) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (expression,genes) COMP_by:V-N (part,production) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) COMP_by:V-N (part,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V_PASS-N (controlled,production) Parse 38 +-------------------------------------COMP_by:V-N------------------------------------+ +-------------------------------COMP_by:V-N------------------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ | +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ | | | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (production,factors) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) Parse 39 +----------------------------------------COMP_by:V_PASS-N---------------------------------------+ | +-------------------------------------COMP_by:V-N------------------------------------+ +----------------------------------COMP_by:V_PASS-N---------------------------------+ | | +-------------------------------COMP_by:V-N------------------------------+ | +------------------SUBJ:V_PASS-N-----------------+ | +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_by:V_PASS-N (controlled,GENEXXX) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_by:V-N (part,GENEXXX) COMP_of:N-N (expression,genes) COMP_by:V-N (part,production) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) COMP_by:V-N (part,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V_PASS-N (controlled,production) Parse 40 +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+--------APPOS--------+ +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (transcription,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) APPOS (factors,GENEXXX) COMP_in:N-N (genes,compartments) Parse 41 +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+--------APPOS--------+ +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_of:N-N (production,factors) MOD_ATT:N-N (factors,transcription) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) APPOS (factors,GENEXXX) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 42 +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+--------APPOS--------+ +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (transcription,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,factors) APPOS (factors,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (expression,differential) COMP_in:N-N (genes,compartments) Parse 43 +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+--------APPOS--------+ +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_of:N-N (production,factors) MOD_ATT:N-N (factors,transcription) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (controlled,expression) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 44 +------------------COMP_of:N-N------------------+ +-----------------MOD_PRED:N-ADJ-----------------+ | +--------MOD_ATT:N-ADJ-------+--------APPOS--------+ +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,compartment-specific) COMP_in:N-N (genes,compartments) Parse 45 +------------------COMP_of:N-N------------------+ +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+--------APPOS--------+ +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_of:N-N (production,factors) MOD_ATT:N-ADJ (factors,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) APPOS (factors,GENEXXX) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 46 +------------------COMP_of:N-N------------------+ +-----------------MOD_PRED:N-ADJ-----------------+ | +--------MOD_ATT:N-ADJ-------+--------APPOS--------+ +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,factors) APPOS (factors,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,compartment-specific) MOD_ATT:N-ADJ (expression,differential) COMP_in:N-N (genes,compartments) Parse 47 +------------------COMP_of:N-N------------------+ +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+--------APPOS--------+ +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_of:N-N (production,factors) MOD_ATT:N-ADJ (factors,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (controlled,expression) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 48 +-----------------MOD_PRED:N-ADJ-----------------+ +-----------COMP_in:N-N-----------+ | +------------------COMP_of:N-N------------------+--------APPOS--------+ +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (transcription,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) APPOS (factors,GENEXXX) Parse 49 +------------------SUBJ:V_PASS-N-----------------+ +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+--------APPOS--------+ +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_of:N-N (production,factors) MOD_ATT:N-N (factors,transcription) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) APPOS (factors,GENEXXX) COMP_by:V_PASS-N (controlled,production) Parse 50 +-----------------MOD_PRED:N-ADJ-----------------+ +-----------COMP_in:N-N-----------+ | +------------------COMP_of:N-N------------------+--------APPOS--------+ +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (transcription,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,factors) APPOS (factors,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (expression,differential) Parse 51 +------------------SUBJ:V_PASS-N-----------------+ +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+--------APPOS--------+ +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_of:N-N (production,factors) MOD_ATT:N-N (factors,transcription) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (controlled,expression) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,production) Parse 52 +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+ +-----------COMP_in:N-N-----------+ | | +--------MOD_ATT:N-ADJ-------+--------APPOS--------+ +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (expression,differential) MOD_PRED:N-ADJ (expression,controlled) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,compartment-specific) Parse 53 +------------------SUBJ:V_PASS-N-----------------+ +------------------COMP_of:N-N------------------+ +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+--------APPOS--------+ +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_of:N-N (production,factors) MOD_ATT:N-ADJ (factors,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) APPOS (factors,GENEXXX) COMP_by:V_PASS-N (controlled,production) Parse 54 +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+ +-----------COMP_in:N-N-----------+ | | +--------MOD_ATT:N-ADJ-------+--------APPOS--------+ +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) COMP_of:N-N (production,factors) APPOS (factors,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,compartment-specific) MOD_ATT:N-ADJ (expression,differential) Parse 55 +------------------SUBJ:V_PASS-N-----------------+ +------------------COMP_of:N-N------------------+ +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+--------APPOS--------+ +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+--APPOS--+ | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) COMP_of:N-N (production,factors) MOD_ATT:N-ADJ (factors,compartment-specific) MOD_ATT:N-N (factors,transcription) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (controlled,expression) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,production) Parse 56 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) MOD_ATT:N-N (expression,differential) APPOS (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_in:N-N (genes,compartments) Parse 57 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . APPOS (production,GENEXXX) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 58 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_in:N-N (genes,compartments) Parse 59 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . APPOS (production,GENEXXX) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 60 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +------------------COMP_of:N-N------------------+ | | +-----------------MOD_PRED:N-ADJ-----------------+ | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) MOD_ATT:N-N (expression,differential) APPOS (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) COMP_in:N-N (genes,compartments) Parse 61 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +------------------COMP_of:N-N------------------+ | | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) APPOS (production,GENEXXX) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 62 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +------------------COMP_of:N-N------------------+ | | +-----------------MOD_PRED:N-ADJ-----------------+ | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) COMP_in:N-N (genes,compartments) Parse 63 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +------------------COMP_of:N-N------------------+ | | +------------------SUBJ:V_PASS-N-----------------+-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+-----COMP_in:N-N-----+ | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . MOD_ATT:N-ADJ (factors,compartment-specific) APPOS (production,GENEXXX) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,production) COMP_in:N-N (genes,compartments) Parse 64 +--------------------------------APPOS--------------------------------+ +-----------------MOD_PRED:N-ADJ-----------------+ +--------------------------APPOS--------------------------+ | +-----------COMP_in:N-N-----------+ | +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) MOD_ATT:N-N (expression,differential) APPOS (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (transcription,compartment-specific) Parse 65 +--------------------------------APPOS--------------------------------+ +------------------SUBJ:V_PASS-N-----------------+ +--------------------------APPOS--------------------------+ | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) APPOS (production,GENEXXX) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) Parse 66 +--------------------------------APPOS--------------------------------+ +-----------------MOD_PRED:N-ADJ-----------------+ +--------------------------APPOS--------------------------+ | +-----------COMP_in:N-N-----------+ | +------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) Parse 67 +--------------------------------APPOS--------------------------------+ +------------------SUBJ:V_PASS-N-----------------+ +--------------------------APPOS--------------------------+ | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+------------------COMP_of:N-N------------------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) APPOS (production,GENEXXX) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_by:V_PASS-N (controlled,production) Parse 68 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ | | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) MOD_ATT:N-N (expression,differential) APPOS (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) Parse 69 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +------------------SUBJ:V_PASS-N-----------------+ +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) APPOS (production,GENEXXX) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (expression,differential) COMP_by:V_PASS-N (controlled,production) Parse 70 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +-----------------MOD_PRED:N-ADJ-----------------+ +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ | | +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-ADJ (expression,differential) Parse 71 +--------------------------------APPOS--------------------------------+ +--------------------------APPOS--------------------------+ | +------------------SUBJ:V_PASS-N-----------------+ +------------------COMP_of:N-N------------------+ | | +-----------COMP_in:N-N-----------+ +-----COMP_by:V_PASS-N----+ +--------MOD_ATT:N-ADJ-------+ | | +MOD_ATT:N-A+COMP_of:N-N+ | | +--COMP_by:V-N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) MOD_ATT:N-ADJ (factors,compartment-specific) APPOS (production,GENEXXX) COMP_of:N-N (production,factors) APPOS (production,GENEXXX) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-ADJ (expression,differential) COMP_by:V_PASS-N (controlled,production) Parse 72 +--------------------------------------------OBJ:V-N--------------------------------------------+ +--------------------------SUBJ:V-N--------------------------+--------------------------------------OBJ:V-N--------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ +---------------------------------OBJ:V-N---------------------------------+ | | | +-----------------SUBJ:V-N----------------+ +-------COMP_by:V-N-------+-------------COMP_of:N-N------------+ | | | | +COMP_of:N-N+-----COMP_in:N-N-----+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+ | | | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . SUBJ:V-N (is,expression) SUBJ:V-N (controlled,differential) OBJ:V-N (is,differential) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) OBJ:V-N (controlled,GENEXXX) MOD_ATT:N-ADJ (transcription,compartment-specific) OBJ:V-N (controlled,GENEXXX) COMP_by:V-N (controlled,production) COMP_in:N-N (genes,compartments) OBJ:V-N (controlled,factors) COMP_of:N-N (production,transcription) Parse 73 +--------------------------SUBJ:V-N--------------------------+--------------------------------------------OBJ:V-N--------------------------------------------+ +-----------------------OBJ:V-N-----------------------+ +--------------------------------------OBJ:V-N--------------------------------------+ | | +-----------------SUBJ:V-N----------------+ +---------------------------------OBJ:V-N---------------------------------+ | | | +-----------COMP_in:N-N-----------+ | +-------COMP_by:V-N-------+-------------COMP_of:N-N------------+ | | | | +COMP_of:N-N+ | | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+ | | | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) SUBJ:V-N (is,expression) SUBJ:V-N (controlled,differential) OBJ:V-N (is,differential) COMP_by:V-N (part,production) COMP_of:N-N (expression,genes) OBJ:V-N (controlled,GENEXXX) MOD_ATT:N-ADJ (transcription,compartment-specific) OBJ:V-N (controlled,GENEXXX) COMP_by:V-N (controlled,production) OBJ:V-N (controlled,factors) COMP_of:N-N (production,transcription) Parse 74 +--------------------------SUBJ:V-N--------------------------+ +-----------------------OBJ:V-N-----------------------+ +---------------------------------OBJ:V-N---------------------------------+ | +-----------------SUBJ:V-N----------------+ +-------COMP_by:V-N-------+-------------COMP_of:N-N------------+ +--------APPOS--------+ | +COMP_of:N-N+-----COMP_in:N-N-----+ | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+ +--APPOS--+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . SUBJ:V-N (is,expression) SUBJ:V-N (controlled,differential) OBJ:V-N (is,differential) COMP_of:N-N (expression,genes) COMP_by:V-N (part,production) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) COMP_by:V-N (controlled,production) MOD_ATT:N-ADJ (transcription,compartment-specific) COMP_in:N-N (genes,compartments) OBJ:V-N (controlled,factors) COMP_of:N-N (production,transcription) Parse 75 +--------------------------SUBJ:V-N--------------------------+ +-----------------------OBJ:V-N-----------------------+ | | +-----------------SUBJ:V-N----------------+ +---------------------------------OBJ:V-N---------------------------------+ | +-----------COMP_in:N-N-----------+ | +-------COMP_by:V-N-------+-------------COMP_of:N-N------------+ +--------APPOS--------+ | +COMP_of:N-N+ | | | +--COMP_by:V-N-+ +--MOD_ATT:N-ADJ--+ +--APPOS--+ | | | | | | | | | | | | | | The differential expression of genes in these two compartments is controlled in part by the production of compartment-specific transcription factors , GENEXXX and GENEXXX . COMP_in:N-N (expression,compartments) SUBJ:V-N (is,expression) SUBJ:V-N (controlled,differential) OBJ:V-N (is,differential) COMP_of:N-N (expression,genes) COMP_by:V-N (part,production) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) COMP_by:V-N (controlled,production) MOD_ATT:N-ADJ (transcription,compartment-specific) OBJ:V-N (controlled,factors) COMP_of:N-N (production,transcription) PMID: 2111808-1 Sentence 11 One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . Parse 0 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +---------------------------------COMP_of:N-N--------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | | +---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (regulon,phase) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 1 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ +---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ +SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (transcription,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_of:N-N (transcription,phase) COMP_in:V_PASS-N (implicated,transcription) Parse 2 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-------------------COMP_during:V_PASS-N-------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 3 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-------------------COMP_during:V_PASS-N-------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +--SUBJ:V_PASS-N--+---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) COMP_during:V_PASS-N (expressed,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,regulon) COMP_in:V_PASS-N (implicated,transcription) Parse 4 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-------------------COMP_during:V_PASS-N-------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ +---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ +SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (transcription,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 5 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-------------------COMP_during:V_PASS-N-------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +----------SUBJ:V_PASS-N----------+---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) SUBJ:V_PASS-N (expressed,transcription) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) COMP_during:V_PASS-N (expressed,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 6 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +----------SUBJ:V_PASS-N----------+-------------------COMP_during:V_PASS-N-------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ +---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) SUBJ:V_PASS-N (expressed,transcription) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (transcription,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) COMP_during:V_PASS-N (expressed,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 7 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+----------------------------------------------COMP_during:V_PASS-N----------------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ +------------------------------COMP_during:V_PASS-N------------------------------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (implicated,phase) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) COMP_during:V_PASS-N (implicated,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 8 +----------------------------------------------COMP_during:V_PASS-N----------------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------COMP_during:V_PASS-N------------------------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +--SUBJ:V_PASS-N--+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (implicated,phase) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) COMP_during:V_PASS-N (implicated,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,regulon) COMP_in:V_PASS-N (implicated,transcription) Parse 9 +----------------------------------------------COMP_during:V_PASS-N----------------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------COMP_during:V_PASS-N------------------------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ +SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (implicated,phase) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (transcription,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) COMP_during:V_PASS-N (implicated,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 10 +----------------------------------------------COMP_during:V_PASS-N----------------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------COMP_during:V_PASS-N------------------------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +----------SUBJ:V_PASS-N----------+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (implicated,phase) SUBJ:V_PASS-N (expressed,transcription) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) COMP_during:V_PASS-N (implicated,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 11 +----------------------------------------------COMP_during:V_PASS-N----------------------------------------------+ +------------------------------COMP_during:V_PASS-N------------------------------+ | +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +----------SUBJ:V_PASS-N----------+ | | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ | | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (implicated,phase) SUBJ:V_PASS-N (expressed,transcription) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (transcription,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) COMP_during:V_PASS-N (implicated,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 12 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | | +---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_of:N-N (transcription,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 13 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | | +--SUBJ:V_PASS-N--+---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) COMP_of:N-N (transcription,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,regulon) COMP_in:V_PASS-N (implicated,transcription) Parse 14 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 15 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +--SUBJ:V_PASS-N--+---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,regulon) COMP_in:V_PASS-N (implicated,transcription) Parse 16 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ +---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ +SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (transcription,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 17 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +----------SUBJ:V_PASS-N----------+---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) SUBJ:V_PASS-N (expressed,transcription) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 18 +------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +----------SUBJ:V_PASS-N----------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ +---COMP_during:V_PASS-N---+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:V_PASS-N (expressed,growth) SUBJ:V_PASS-N (expressed,transcription) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (transcription,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 19 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +---------------------------------COMP_of:N-N--------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | | +----------COMP_during:N-N---------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:N-N (genes,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (regulon,phase) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 20 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+----------COMP_during:N-N---------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ +SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:N-N (genes,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (transcription,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_of:N-N (transcription,phase) COMP_in:V_PASS-N (implicated,transcription) Parse 21 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +--------------------------COMP_during:N-N-------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +----------COMP_during:N-N---------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:N-N (genes,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (genes,phase) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 22 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-------------------------------COMP_during:N-N------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +---------------COMP_during:N-N--------------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) COMP_during:N-N (regulon,phase) COMP_during:N-N (regulon,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 23 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +--------------------------COMP_during:N-N-------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+----------COMP_during:N-N---------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ +SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:N-N (genes,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (genes,phase) COMP_of:N-N (transcription,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 24 +-------------------------------COMP_during:N-N------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +---------------COMP_during:N-N--------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +--SUBJ:V_PASS-N--+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) COMP_during:N-N (regulon,phase) COMP_during:N-N (regulon,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,regulon) COMP_in:V_PASS-N (implicated,transcription) Parse 25 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +---------------------------------------COMP_during:N-N--------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-----------------------COMP_during:N-N----------------------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (transcription,growth) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_during:N-N (transcription,phase) COMP_in:V_PASS-N (implicated,transcription) Parse 26 +---------------------------------------COMP_during:N-N--------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------COMP_during:N-N----------------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | | +--SUBJ:V_PASS-N--+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (transcription,growth) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,regulon) COMP_during:N-N (transcription,phase) COMP_in:V_PASS-N (implicated,transcription) Parse 27 +---------------------------------------COMP_during:N-N--------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------COMP_during:N-N----------------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ +SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (transcription,growth) COMP_of:N-N (transcription,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_during:N-N (transcription,phase) COMP_in:V_PASS-N (implicated,transcription) Parse 28 +---------------------------------------COMP_during:N-N--------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------COMP_during:N-N----------------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +----------SUBJ:V_PASS-N----------+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) SUBJ:V_PASS-N (expressed,transcription) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (transcription,growth) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_during:N-N (transcription,phase) COMP_in:V_PASS-N (implicated,transcription) Parse 29 +---------------------------------------COMP_during:N-N--------------------------------------+ +-----------------------COMP_during:N-N----------------------+ | +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +----------SUBJ:V_PASS-N----------+ | | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ | | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) SUBJ:V_PASS-N (expressed,transcription) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (transcription,growth) COMP_of:N-N (transcription,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_during:N-N (transcription,phase) COMP_in:V_PASS-N (implicated,transcription) Parse 30 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | | +----------COMP_during:N-N---------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:N-N (genes,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_of:N-N (transcription,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 31 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | | +---------------COMP_during:N-N--------------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) COMP_during:N-N (regulon,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) SUBJ:V_PASS-N (expressed,genes) COMP_of:N-N (transcription,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 32 +-----------------------------------------COMP_of:N-N----------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ | +---------------COMP_during:N-N--------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | | +--SUBJ:V_PASS-N--+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) MOD_ATT:N-ADJ (phase,early) COMP_during:N-N (regulon,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_of:N-N (transcription,regulon) COMP_of:N-N (transcription,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,regulon) COMP_in:V_PASS-N (implicated,transcription) Parse 33 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +----------COMP_during:N-N---------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:N-N (genes,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 34 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +---------------COMP_during:N-N--------------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) COMP_during:N-N (regulon,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 35 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+----------COMP_during:N-N---------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ +SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) COMP_during:N-N (genes,growth) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (transcription,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 36 +------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +---------------COMP_during:N-N--------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +--SUBJ:V_PASS-N--+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) COMP_during:N-N (regulon,growth) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,regulon) COMP_in:V_PASS-N (implicated,transcription) Parse 37 +-----------------------------------SUBJ:V_PASS-N-----------------------------------+------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-----------------------COMP_during:N-N----------------------+ +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (transcription,growth) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 38 +------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------COMP_during:N-N----------------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | | +--SUBJ:V_PASS-N--+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (transcription,growth) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,regulon) COMP_in:V_PASS-N (implicated,transcription) Parse 39 +------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------COMP_during:N-N----------------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ +SUBJ:V_+ +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (transcription,growth) COMP_of:N-N (transcription,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) SUBJ:V_PASS-N (expressed,genes) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 40 +------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +-----------------------COMP_during:N-N----------------------+ | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +----------SUBJ:V_PASS-N----------+ | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+COMP_of:N+ | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) SUBJ:V_PASS-N (expressed,transcription) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (transcription,growth) COMP_of:N-N (regulon,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) Parse 41 +------------------------------------------------COMP_in:V_PASS-N------------------------------------------------+ | +-----------------------COMP_during:N-N----------------------+ | +-----------------------------------SUBJ:V_PASS-N-----------------------------------+ +----------SUBJ:V_PASS-N----------+ | | +-----------SUBJ:V_PASS-N-----------+---COMP_during:V_PASS-N--+ | +-------COMP_of:N-N-------+ | | +--MOD_ATT:N-ADJ-+ +--APPOS--+--APPOS--+ | +MOD_ATT:+ +--COMP_in:V_PASS-N-+--COMP_of:N-N--+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | One such factor , GENEXXX ( GENEXXX ) , is expressed during vegetative growth and has been implicated in the transcription of a regulon of genes expressed during exponential growth and the early stationary phase . MOD_ATT:N-ADJ (growth,exponential) SUBJ:V_PASS-N (expressed,transcription) MOD_ATT:N-ADJ (growth,vegetative) SUBJ:V_PASS-N (implicated,factor) COMP_during:N-N (transcription,growth) COMP_of:N-N (transcription,genes) COMP_of:N-N (transcription,regulon) MOD_ATT:N-ADJ (phase,early) SUBJ:V_PASS-N (expressed,factor) APPOS (GENEXXX,GENEXXX) APPOS (factor,GENEXXX) COMP_in:V_PASS-N (implicated,phase) COMP_during:V_PASS-N (expressed,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:V_PASS-N (implicated,transcription) PMID: 2468649-1 Sentence 12 Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . Parse 0 +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+ +----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) Parse 1 +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+ +----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) Parse 2 +---------------------APPOS--------------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+-------------APPOS------------+ +-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) APPOS (polymerase,product) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) OBJ:V-N (containing,GENEXXX) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) SUBJ:V-N (containing,polymerase) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forespore,developing) APPOS (polymerase,GENEXXX) Parse 3 +---------------------APPOS--------------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+-------------APPOS------------+ +-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,gene) APPOS (polymerase,product) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) OBJ:V-N (containing,GENEXXX) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forespore,developing) APPOS (polymerase,GENEXXX) Parse 4 +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+ +----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) Parse 5 +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+ +----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,product) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) Parse 6 +---------------------APPOS--------------------+-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+-------------APPOS------------+ +-----COMP_of:N-N----+ +------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) APPOS (polymerase,product) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) OBJ:V-N (containing,GENEXXX) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) SUBJ:V-N (containing,polymerase) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forespore,developing) APPOS (polymerase,GENEXXX) Parse 7 +---------------------APPOS--------------------+-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+-------------APPOS------------+ +-----COMP_of:N-N----+ +------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,product) APPOS (polymerase,product) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) OBJ:V-N (containing,GENEXXX) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forespore,developing) APPOS (polymerase,GENEXXX) Parse 8 +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+---------------------APPOS--------------------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) APPOS (polymerase,product) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forespore,developing) OBJ:V-N (containing,GENEXXX) Parse 9 +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+---------------------APPOS--------------------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,gene) APPOS (polymerase,product) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forespore,developing) OBJ:V-N (containing,GENEXXX) Parse 10 +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+---------------------APPOS--------------------+-----COMP_of:N-N----+ +------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) APPOS (polymerase,product) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forespore,developing) OBJ:V-N (containing,GENEXXX) Parse 11 +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+---------------------APPOS--------------------+-----COMP_of:N-N----+ +------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,product) APPOS (polymerase,product) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (forespore,developing) OBJ:V-N (containing,GENEXXX) Parse 12 +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+ +----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (forespore,developing) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) Parse 13 +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+ +----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (forespore,developing) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) Parse 14 +-----------COMP_by:V_PASS-N----------+ +--------SUBJ:V_PASS-N-------+ +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+ +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) Parse 15 +-----------COMP_by:V_PASS-N----------+ +--------SUBJ:V_PASS-N-------+ +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+ +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) Parse 16 +---------------------APPOS--------------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+-------------APPOS------------+ +-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) APPOS (polymerase,product) MOD_ATT:N-N (forespore,developing) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) OBJ:V-N (containing,GENEXXX) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) SUBJ:V-N (containing,polymerase) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (polymerase,GENEXXX) Parse 17 +---------------------APPOS--------------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+-------------APPOS------------+ +-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,gene) APPOS (polymerase,product) MOD_ATT:N-N (forespore,developing) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) OBJ:V-N (containing,GENEXXX) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (polymerase,GENEXXX) Parse 18 +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+ +----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (forespore,developing) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) Parse 19 +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+ +----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,product) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (forespore,developing) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) Parse 20 +-----------COMP_by:V_PASS-N----------+ | +--------MOD_ATT:N-N--------+ +--------SUBJ:V_PASS-N-------+ | +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | | | +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) MOD_ATT:N-N (GENEXXX,RNA) Parse 21 +-----------COMP_by:V_PASS-N----------+ | +--------MOD_ATT:N-N--------+ +--------SUBJ:V_PASS-N-------+ | +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | | | +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) MOD_ATT:N-N (GENEXXX,RNA) Parse 22 +-----------COMP_by:V_PASS-N----------+ +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+ +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+ +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) Parse 23 +-----------COMP_by:V_PASS-N----------+ +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+ +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+ +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,product) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) Parse 24 +---------------------APPOS--------------------+-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+-------------APPOS------------+ +-----COMP_of:N-N----+ +------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) APPOS (polymerase,product) MOD_ATT:N-N (forespore,developing) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) OBJ:V-N (containing,GENEXXX) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) SUBJ:V-N (containing,polymerase) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (polymerase,GENEXXX) Parse 25 +---------------------APPOS--------------------+-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+-------------APPOS------------+ +-----COMP_of:N-N----+ +------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,product) APPOS (polymerase,product) MOD_ATT:N-N (forespore,developing) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) OBJ:V-N (containing,GENEXXX) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (polymerase,GENEXXX) Parse 26 +-----------COMP_by:V_PASS-N----------+ | +--------MOD_ATT:N-N--------+ +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+ | +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | | | +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) MOD_ATT:N-N (GENEXXX,RNA) Parse 27 +-----------COMP_by:V_PASS-N----------+ | +--------MOD_ATT:N-N--------+ +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+ | +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | | | +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,product) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (forespore,developing) MOD_ATT:N-N (GENEXXX,RNA) Parse 28 +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+---------------------APPOS--------------------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) APPOS (polymerase,product) MOD_ATT:N-N (forespore,developing) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,GENEXXX) Parse 29 +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+---------------------APPOS--------------------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,gene) APPOS (polymerase,product) MOD_ATT:N-N (forespore,developing) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,GENEXXX) Parse 30 +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+---------------------APPOS--------------------+-----COMP_of:N-N----+ +------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) APPOS (polymerase,product) MOD_ATT:N-N (forespore,developing) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,GENEXXX) Parse 31 +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+---------------------APPOS--------------------+-----COMP_of:N-N----+ +------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,product) APPOS (polymerase,product) MOD_ATT:N-N (forespore,developing) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,GENEXXX) Parse 32 +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+ +----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+-------COMP_at:V_PASS-N------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +----MOD_ATT:N-N---+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) APPOS (GENEXXX,product) COMP_at:V_PASS-N (expressed,developing) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (developing,stage) Parse 33 +-----------COMP_by:V_PASS-N----------+ +--------SUBJ:V_PASS-N-------+ +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+ +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (forespore,developing) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) Parse 34 +-----------COMP_by:V_PASS-N----------+ +--------SUBJ:V_PASS-N-------+ +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+ +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (forespore,developing) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) Parse 35 +---------------------APPOS--------------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+-------------APPOS------------+ +-----COMP_of:N-N----+------SUBJ:V_PASS-N------+-------COMP_at:V_PASS-N------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | +MOD_A+ +MOD:V_PA+ +----MOD_ATT:N-N---+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) APPOS (polymerase,product) COMP_by:V_PASS-N (mediated,polymerase) COMP_at:V_PASS-N (expressed,developing) MOD:V_PASS-ADV (expressed,itself) OBJ:V-N (containing,GENEXXX) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (developing,stage) APPOS (polymerase,GENEXXX) Parse 36 +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+ +----------APPOS----------+-----COMP_of:N-N----+ +-------COMP_at:V_PASS-N------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +----MOD_ATT:N-N---+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) APPOS (GENEXXX,product) COMP_at:V_PASS-N (expressed,developing) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (developing,stage) Parse 37 +-----------COMP_by:V_PASS-N----------+ | +--------MOD_ATT:N-N--------+ +--------SUBJ:V_PASS-N-------+ | +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | | | +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (forespore,developing) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,RNA) Parse 38 +-----------COMP_by:V_PASS-N----------+ | +--------MOD_ATT:N-N--------+ +--------SUBJ:V_PASS-N-------+ | +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | | | +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (forespore,developing) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,RNA) Parse 39 +-----------COMP_by:V_PASS-N----------+ +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+ +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+ +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) MOD_ATT:N-N (forespore,developing) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) Parse 40 +-----------COMP_by:V_PASS-N----------+ +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+ +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | +MOD_AT+ +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,product) MOD_ATT:N-N (forespore,developing) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) Parse 41 +---------------------APPOS--------------------+-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+-------------APPOS------------+ +-----COMP_of:N-N----+ +-------COMP_at:V_PASS-N------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | +MOD_A+ +MOD:V_PA+ +----MOD_ATT:N-N---+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) APPOS (polymerase,product) COMP_by:V_PASS-N (mediated,polymerase) COMP_at:V_PASS-N (expressed,developing) MOD:V_PASS-ADV (expressed,itself) OBJ:V-N (containing,GENEXXX) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (developing,stage) APPOS (polymerase,GENEXXX) Parse 42 +-----------COMP_by:V_PASS-N----------+ | +--------MOD_ATT:N-N--------+ +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+ | +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_at:V_PASS-N------------+ +----COMP_of:N-N---+ | | | +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) MOD_ATT:N-N (forespore,developing) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) COMP_at:V_PASS-N (expressed,forespore) MOD_ATT:N-N (gene,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,RNA) Parse 43 +-----------COMP_by:V_PASS-N----------+ | +--------MOD_ATT:N-N--------+ +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+ | +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+ +------------COMP_in:V_PASS-N------------+ +----COMP_of:N-N---+ | | | +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . COMP_in:V_PASS-N (expressed,forespore) SUBJ:V_PASS-N (expressed,product) MOD_ATT:N-N (forespore,developing) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,RNA) Parse 44 +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+---------------------APPOS--------------------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+-------COMP_at:V_PASS-N------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +----MOD_ATT:N-N---+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) APPOS (polymerase,product) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) COMP_at:V_PASS-N (expressed,developing) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (developing,stage) OBJ:V-N (containing,GENEXXX) Parse 45 +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+COMP_by:V_PASS-N+---------------------APPOS--------------------+-----COMP_of:N-N----+ +-------COMP_at:V_PASS-N------+ +----COMP_of:N-N---+ | +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +----MOD_ATT:N-N---+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) APPOS (polymerase,product) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (mediated,polymerase) COMP_at:V_PASS-N (expressed,developing) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) COMP_of:N-N (product,gene) APPOS (GENEXXX,GENEXXX) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (developing,stage) OBJ:V-N (containing,GENEXXX) Parse 46 +-----------COMP_by:V_PASS-N----------+ +--------SUBJ:V_PASS-N-------+ +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+-------COMP_at:V_PASS-N------+ +----COMP_of:N-N---+ | +MOD_AT+ +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +----MOD_ATT:N-N---+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) COMP_at:V_PASS-N (expressed,developing) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (developing,stage) Parse 47 +-----------COMP_by:V_PASS-N----------+ | +--------MOD_ATT:N-N--------+ +--------SUBJ:V_PASS-N-------+ | +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+------SUBJ:V_PASS-N------+-------COMP_at:V_PASS-N------+ +----COMP_of:N-N---+ | | | +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +----MOD_ATT:N-N---+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) COMP_at:V_PASS-N (expressed,developing) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (developing,stage) MOD_ATT:N-N (GENEXXX,RNA) Parse 48 +-----------COMP_by:V_PASS-N----------+ +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+ +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+ +-------COMP_at:V_PASS-N------+ +----COMP_of:N-N---+ | +MOD_AT+ +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +----MOD_ATT:N-N---+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) COMP_at:V_PASS-N (expressed,developing) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (developing,stage) Parse 49 +-----------COMP_by:V_PASS-N----------+ | +--------MOD_ATT:N-N--------+ +-----------------SUBJ:V_PASS-N----------------+ +--------SUBJ:V_PASS-N-------+ | +-----MOD_ATT:N-N----+----------APPOS----------+-----COMP_of:N-N----+ +-------COMP_at:V_PASS-N------+ +----COMP_of:N-N---+ | | | +MOD_ATT:N+--APPOS--+ | +MOD_A+ +MOD:V_PA+ +----MOD_ATT:N-N---+ | | | | | | | | | | | | | | | Transcription of these genes is mediated by RNA polymerase containing GENEXXX ( GENEXXX ) , the product of the GENEXXX gene , which is itself expressed at stage III in the developing forespore . SUBJ:V_PASS-N (expressed,product) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (mediated,GENEXXX) APPOS (GENEXXX,product) COMP_at:V_PASS-N (expressed,developing) MOD:V_PASS-ADV (expressed,itself) COMP_of:N-N (Transcription,genes) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_of:N-N (product,gene) SUBJ:V_PASS-N (mediated,Transcription) MOD_ATT:N-N (gene,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (developing,stage) MOD_ATT:N-N (GENEXXX,RNA) PMID: 2492118-2 Sentence 13 A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . Parse 0 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-ADJ (RNA,containing) COMP_of:N-N (specificity,transcription) Parse 1 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (RNA,containing) COMP_of:N-N (specificity,transcription) Parse 2 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (RNA,containing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 3 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (RNA,containing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 4 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) Parse 5 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,transcription) Parse 6 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 7 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (stimulating,greatly) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,transcription) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (repressing,GENEXXX) Parse 8 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD:V-ADV (repressing,markedly) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,GENEXXX) OBJ:V-N (repressing,transcription) Parse 9 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (stimulating,greatly) SUBJ:V-N (stimulating,specificity) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,transcription) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (repressing,specificity) Parse 10 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD:V-ADV (repressing,markedly) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,specificity) OBJ:V-N (repressing,transcription) Parse 11 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 12 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 13 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 14 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 15 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 16 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 17 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 18 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 19 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 20 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (containing,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 21 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (containing,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 22 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,polymerase) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-ADJ (RNA,containing) Parse 23 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 24 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 25 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,polymerase) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (RNA,containing) Parse 26 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 27 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 28 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 29 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 30 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 31 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 32 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . APPOS (GENEXXX,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (GENEXXX,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 33 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (GENEXXX,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) APPOS (GENEXXX,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 34 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (GENEXXX,transcription) MOD_ATT:N-ADJ (transcription,stimulating) APPOS (GENEXXX,transcription) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 35 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 36 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD:V-ADV (was,also) APPOS (polymerase,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 37 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 38 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 39 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 40 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 41 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 42 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (containing,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 43 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (RNA,containing) Parse 44 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-ADJ (RNA,containing) Parse 45 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 46 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) Parse 47 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,RNA) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 48 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 49 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) MOD:V-ADV (stimulating,greatly) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (repressing,transcription) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (repressing,GENEXXX) Parse 50 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,transcription) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,GENEXXX) Parse 51 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (stimulating,greatly) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,transcription) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (repressing,GENEXXX) OBJ:V-N (stimulating,GENEXXX) Parse 52 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) MOD:V-ADV (repressing,markedly) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,GENEXXX) OBJ:V-N (repressing,transcription) Parse 53 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD:V-ADV (repressing,markedly) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,GENEXXX) OBJ:V-N (repressing,transcription) OBJ:V-N (stimulating,GENEXXX) Parse 54 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) SUBJ:V-N (stimulating,specificity) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (repressing,transcription) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (repressing,specificity) Parse 55 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,transcription) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,specificity) Parse 56 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (stimulating,greatly) SUBJ:V-N (stimulating,specificity) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,transcription) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (repressing,specificity) OBJ:V-N (stimulating,GENEXXX) Parse 57 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) OBJ:V-N (repressing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD:V-ADV (repressing,markedly) OBJ:V-N (repressing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,specificity) Parse 58 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) MOD:V-ADV (repressing,markedly) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,specificity) OBJ:V-N (repressing,transcription) Parse 59 +--------------MOD:V-ADV-------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD:V-ADV (containing,stimulating) Parse 60 +--------------MOD:V-ADV-------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD:V-ADV (containing,stimulating) Parse 61 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 62 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 63 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (containing,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 64 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 65 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (GENEXXX,repressing) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) Parse 66 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (GENEXXX,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 67 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 68 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (GENEXXX,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 69 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 70 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (containing,RNA) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 71 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 72 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 73 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 74 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (containing,RNA) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 75 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (containing,RNA) OBJ:V-N (changes,transcription) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 76 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,stimulating) SUBJ:V-N (containing,specificity) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 77 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 78 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 79 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 80 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 81 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 82 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (GENEXXX,repressing) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) Parse 83 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (GENEXXX,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 84 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (GENEXXX,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 85 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (GENEXXX,repressing) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) Parse 86 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (GENEXXX,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 87 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 88 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 89 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 90 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 91 +-------------------------------------MOD:V-ADV------------------------------------+ +--------------MOD:V-ADV-------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) MOD:V-ADV (containing,repressing) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) MOD:V-ADV (containing,stimulating) Parse 92 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 93 +-------------------------------------MOD:V-ADV------------------------------------+ +--------------MOD:V-ADV-------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (containing,stimulating) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) MOD:V-ADV (containing,repressing) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) Parse 94 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 95 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . APPOS (GENEXXX,transcription) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) APPOS (GENEXXX,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 96 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (GENEXXX,transcription) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) APPOS (GENEXXX,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 97 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) APPOS (GENEXXX,transcription) MOD_ATT:N-ADJ (transcription,stimulating) APPOS (GENEXXX,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 98 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,RNA) APPOS (GENEXXX,transcription) MOD_ATT:N-ADJ (transcription,stimulating) APPOS (GENEXXX,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 99 +-------------------------------------MOD:V-ADV------------------------------------+ +--------------MOD:V-ADV-------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) MOD:V-ADV (containing,repressing) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) MOD:V-ADV (containing,stimulating) Parse 100 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 101 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 102 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 103 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 104 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,RNA) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 105 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 106 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 107 +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) Parse 108 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) SUBJ:V-N (containing,specificity) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 109 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (containing,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 110 +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) Parse 111 +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) Parse 112 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) Parse 113 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,transcription) Parse 114 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-ADJ (RNA,containing) Parse 115 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-ADJ (RNA,containing) Parse 116 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (RNA,containing) COMP_of:N-N (specificity,transcription) Parse 117 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (RNA,containing) COMP_of:N-N (specificity,transcription) Parse 118 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (RNA,containing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 119 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) Parse 120 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,transcription) Parse 121 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 122 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 123 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) COMP_of:N-N (specificity,transcription) Parse 124 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 125 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) MOD:V-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (repressing,transcription) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,GENEXXX) Parse 126 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) MOD:V-ADV (stimulating,greatly) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (repressing,transcription) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (repressing,GENEXXX) OBJ:V-N (stimulating,GENEXXX) Parse 127 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,transcription) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,GENEXXX) OBJ:V-N (stimulating,GENEXXX) Parse 128 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (repressing,markedly) OBJ:V-N (repressing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,GENEXXX) Parse 129 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) OBJ:V-N (repressing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD:V-ADV (repressing,markedly) OBJ:V-N (repressing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,GENEXXX) Parse 130 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) OBJ:V-N (repressing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD:V-ADV (repressing,markedly) OBJ:V-N (repressing,transcription) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,GENEXXX) OBJ:V-N (stimulating,GENEXXX) Parse 131 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) MOD:V-ADV (repressing,markedly) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,GENEXXX) OBJ:V-N (repressing,transcription) OBJ:V-N (stimulating,GENEXXX) Parse 132 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (repressing,transcription) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,specificity) Parse 133 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) SUBJ:V-N (stimulating,specificity) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (repressing,transcription) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (repressing,specificity) OBJ:V-N (stimulating,GENEXXX) Parse 134 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,transcription) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,specificity) OBJ:V-N (stimulating,GENEXXX) Parse 135 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD:V-ADV (repressing,markedly) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,specificity) OBJ:V-N (repressing,transcription) OBJ:V-N (stimulating,GENEXXX) Parse 136 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) MOD:V-ADV (repressing,markedly) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,specificity) OBJ:V-N (repressing,transcription) OBJ:V-N (stimulating,GENEXXX) Parse 137 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 138 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 139 +-------------------SUBJ:V-N------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 140 +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD:V-ADV (was,also) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 141 +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,polymerase) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 142 +-------------------------SUBJ:V-N-------------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 143 +-------------------------SUBJ:V-N-------------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 144 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 145 +-------------------------SUBJ:V-N-------------------------+ +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD:V-ADV (was,also) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 146 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 147 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 148 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 149 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (containing,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 150 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 151 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 152 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 153 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 154 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 155 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 156 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 157 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 158 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (containing,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 159 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (containing,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 160 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,polymerase) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 161 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-ADJ (RNA,containing) Parse 162 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,polymerase) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (RNA,containing) Parse 163 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 164 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,polymerase) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 165 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 166 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 167 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 168 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 169 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) Parse 170 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 171 +------------------------------SUBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (repressing,polymerase) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) Parse 172 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 173 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 174 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 175 +------------------------------SUBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) SUBJ:V-N (repressing,polymerase) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) Parse 176 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) Parse 177 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 178 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 179 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . APPOS (GENEXXX,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) APPOS (GENEXXX,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 180 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) APPOS (GENEXXX,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (GENEXXX,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 181 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) SUBJ:V-N (repressing,GENEXXX) Parse 182 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 183 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 184 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . APPOS (GENEXXX,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) APPOS (GENEXXX,transcription) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 185 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (GENEXXX,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) APPOS (GENEXXX,transcription) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 186 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 187 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 188 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD:V-ADV (was,also) APPOS (polymerase,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) Parse 189 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 190 +-------------COMP_of:N-N------------+------------------------------SUBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,polymerase) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD:V-ADV (was,also) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) Parse 191 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 192 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 193 +-------------COMP_of:N-N------------+------------------------------------------APPOS-----------------------------------------+ | +------MOD_ATT:N-N------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 194 +-------------COMP_of:N-N------------+------------------------------------------APPOS-----------------------------------------+ | +------MOD_ATT:N-N------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) APPOS (polymerase,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 195 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 196 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) Parse 197 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) SUBJ:V-N (repressing,specificity) Parse 198 +-------------COMP_of:N-N------------+------------------------------------------APPOS-----------------------------------------+ | +------MOD_ATT:N-N------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) APPOS (polymerase,transcription) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 199 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 200 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 201 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 202 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) Parse 203 +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) Parse 204 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (containing,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 205 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (containing,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 206 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 207 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 208 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-ADJ (RNA,containing) Parse 209 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-ADJ (RNA,containing) Parse 210 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (RNA,containing) Parse 211 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (RNA,containing) Parse 212 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD:V-ADV (was,also) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) SUBJ:V-N (repressing,specificity) Parse 213 +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) Parse 214 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 215 +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) Parse 216 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 217 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 218 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 219 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) COMP_of:N-N (specificity,transcription) Parse 220 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) Parse 221 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) Parse 222 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 223 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) MOD:V-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (repressing,transcription) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,GENEXXX) OBJ:V-N (stimulating,GENEXXX) Parse 224 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (repressing,markedly) OBJ:V-N (repressing,transcription) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,GENEXXX) OBJ:V-N (stimulating,GENEXXX) Parse 225 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (repressing,transcription) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (was,also) MOD:V-ADV (repressing,markedly) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,specificity) OBJ:V-N (stimulating,GENEXXX) Parse 226 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:V-ADV+-OBJ:V-N-+ | +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) OBJ:V-N (repressing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD:V-ADV (repressing,markedly) OBJ:V-N (repressing,transcription) COMP_of:N-N (specificity,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,specificity) OBJ:V-N (stimulating,GENEXXX) Parse 227 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:V-ADV+ +MOD_ATT:N-+ +MOD:V-ADV+-OBJ:V-N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:V-ADV (stimulating,greatly) OBJ:V-N (repressing,GENEXXX) MOD:V-ADV (repressing,markedly) OBJ:V-N (repressing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) SUBJ:V-N (repressing,specificity) Parse 228 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ +-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) OBJ:V-N (stimulating,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 229 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ +-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 230 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ +-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) OBJ:V-N (stimulating,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 231 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 232 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ +-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 233 +-------------------SUBJ:V-N------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 234 +--------------MOD:V-ADV-------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (containing,stimulating) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 235 +-------------------------SUBJ:V-N-------------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 236 +-------------------------SUBJ:V-N-------------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) SUBJ:V-N (stimulating,specificity) OBJ:V-N (stimulating,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 237 +-------------------------SUBJ:V-N-------------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) SUBJ:V-N (stimulating,specificity) OBJ:V-N (stimulating,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 238 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 239 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 240 +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 241 +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (stimulating,transcription) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 242 +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (stimulating,transcription) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 243 +-------------COMP_of:N-N------------+ | +------MOD_ATT:N-N------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 244 +-------------COMP_of:N-N------------+ | +------MOD_ATT:N-N------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 245 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (containing,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 246 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+MOD_ATT:N+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (GENEXXX,repressing) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 247 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+MOD_ATT:N+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (GENEXXX,repressing) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 248 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,repressing) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD:ADJ-ADV (repressing,markedly) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) Parse 249 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+MOD_ATT:N+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-ADJ (GENEXXX,repressing) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 250 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+MOD_ATT:N+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (GENEXXX,repressing) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 251 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (containing,RNA) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 252 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 253 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (containing,RNA) OBJ:V-N (changes,transcription) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 254 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,repressing) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 255 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 256 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 257 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 258 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,repressing) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 259 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 260 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,repressing) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD:ADJ-ADV (repressing,markedly) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) Parse 261 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+MOD_ATT:N+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (GENEXXX,repressing) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 262 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (containing,RNA) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 263 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) OBJ:V-N (containing,transcription) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,repressing) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD:ADJ-ADV (repressing,markedly) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) Parse 264 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+MOD_ATT:N+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (GENEXXX,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 265 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------OBJ:V-N------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ | | | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+MOD_ATT:N+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-ADJ (GENEXXX,repressing) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,transcription) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 266 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | +---OBJ:V-N--+ | +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) SUBJ:V-N (containing,specificity) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 267 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 268 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 269 +------------------------------SUBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ +-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,polymerase) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) Parse 270 +------------------------------SUBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (repressing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,polymerase) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) Parse 271 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 272 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 273 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 274 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 275 +------------------------------SUBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ +-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) SUBJ:V-N (repressing,polymerase) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) Parse 276 +------------------------------------------APPOS-----------------------------------------+ +-------------------APPOS------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 277 +------------------------------SUBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ +-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) SUBJ:V-N (repressing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) Parse 278 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . APPOS (GENEXXX,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) APPOS (GENEXXX,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 279 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) APPOS (GENEXXX,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) APPOS (GENEXXX,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 280 +------------------------------------------SUBJ:V-N-----------------------------------------+ +-------------------SUBJ:V-N------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (containing,RNA) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) SUBJ:V-N (repressing,GENEXXX) Parse 281 +------------------------------------------------------APPOS-----------------------------------------------------+ +-------------------------------APPOS------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) APPOS (GENEXXX,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) APPOS (GENEXXX,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 282 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) Parse 283 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) SUBJ:V-N (repressing,specificity) Parse 284 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 285 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 286 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) SUBJ:V-N (repressing,specificity) Parse 287 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ | +----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 288 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 289 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,specificity) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) Parse 290 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) SUBJ:V-N (repressing,specificity) Parse 291 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) SUBJ:V-N (repressing,specificity) Parse 292 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) OBJ:V-N (containing,RNA) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) SUBJ:V-N (containing,specificity) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 293 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) SUBJ:V-N (containing,specificity) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 294 +-------------COMP_of:N-N------------+ +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) Parse 295 +-------------COMP_of:N-N------------+ | +------MOD_ATT:N-N------+ +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) Parse 296 +-------------COMP_of:N-N------------+ | +------MOD_ATT:N-N------+ +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) Parse 297 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) Parse 298 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) COMP_of:N-N (specificity,transcription) Parse 299 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (RNA,containing) Parse 300 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-ADJ (RNA,containing) Parse 301 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) COMP_of:N-N (specificity,transcription) Parse 302 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (specificity,transcription) Parse 303 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 304 +---------------------------------------------------------COMP_of:N-N---------------------------------------------------------+ +----------------------------------COMP_of:N-N----------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) COMP_of:N-N (specificity,transcription) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 305 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 306 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 307 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 308 +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 309 +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,polymerase) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 310 +-------------------------SUBJ:V-N-------------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 311 +-------------COMP_of:N-N------------+ | +------MOD_ATT:N-N------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) SUBJ:V-N (stimulating,polymerase) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 312 +-------------------------SUBJ:V-N-------------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+ +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 313 +-------------------------SUBJ:V-N-------------------------+ +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 314 +-------------------------SUBJ:V-N-------------------------+ +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 315 +-------------------------SUBJ:V-N-------------------------+ +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +------MOD_ATT:N-N------+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 316 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 317 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 318 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 319 +-------------------------SUBJ:V-N-------------------------+ +-------------COMP_of:N-N------------+ | | +------MOD_ATT:N-N------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 320 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,polymerase) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 321 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,polymerase) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 322 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (RNA,containing) Parse 323 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) COMP_of:N-N (specificity,polymerase) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) Parse 324 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . COMP_of:N-N (specificity,polymerase) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 325 +------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ +-------------------------------------------OBJ:V-N-------------------------------------------+ | | +-------------COMP_of:N-N------------+ | | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) OBJ:V-N (changes,transcription) OBJ:V-N (changes,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 326 +-------------COMP_of:N-N------------+------------------------------SUBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,polymerase) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) Parse 327 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) MOD:V-ADV (was,also) APPOS (polymerase,transcription) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) Parse 328 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 329 +------------------------------------------APPOS-----------------------------------------+ +-------------COMP_of:N-N------------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) APPOS (polymerase,transcription) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 330 +-------------COMP_of:N-N------------+------------------------------------------APPOS-----------------------------------------+ | +------MOD_ATT:N-N------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) APPOS (polymerase,transcription) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 331 +-------------COMP_of:N-N------------+------------------------------------------APPOS-----------------------------------------+ | +------MOD_ATT:N-N------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) APPOS (polymerase,transcription) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) Parse 332 +-------------COMP_of:N-N------------+ | +------MOD_ATT:N-N------+------------------------------SUBJ:V-N-----------------------------+ +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (repressing,polymerase) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) Parse 333 +-------------COMP_of:N-N------------+------------------------------------------APPOS-----------------------------------------+ | +------MOD_ATT:N-N------+-------------------APPOS------------------+ | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (transcription,GENEXXX) APPOS (polymerase,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) APPOS (polymerase,transcription) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 334 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,containing) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) Parse 335 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (RNA,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (RNA,containing) Parse 336 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) Parse 337 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) APPOS (specificity,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 338 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (repressing,transcription) SUBJ:V-N (repressing,specificity) Parse 339 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ +MOD:ADJ-A+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (stimulating,greatly) APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 340 +------------------------------------------------SUBJ:V-N------------------------------------------------+ +-------------------------SUBJ:V-N-------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +-------OBJ:V-N------+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ | +MOD_ATT:N-+ | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (polymerase,GENEXXX) SUBJ:V-N (stimulating,specificity) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) OBJ:V-N (repressing,transcription) SUBJ:V-N (repressing,specificity) Parse 341 +------------------------------------------------------------APPOS------------------------------------------------------------+ +-------------------------------------APPOS-------------------------------------+ | +-------------COMP_of:N-N------------+ | | | +------MOD_ATT:N-N------+ | | +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +----MOD_ATT:N-ADJ---+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . APPOS (specificity,transcription) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (transcription,stimulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,containing) MOD_ATT:N-N (transcription,GENEXXX) APPOS (specificity,transcription) OBJ:V-N (changes,specificity) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 342 +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ +-------SUBJ:V-N------+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 343 +-------------------SUBJ:V-N------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (containing,RNA) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 344 +-------------------SUBJ:V-N------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+SUBJ:V-N+OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (stimulating,GENEXXX) OBJ:V-N (changes,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (containing,GENEXXX) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 345 +-------------------------SUBJ:V-N-------------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 346 +-------------------------SUBJ:V-N-------------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . OBJ:V-N (containing,RNA) SUBJ:V-N (stimulating,specificity) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) OBJ:V-N (containing,polymerase) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-ADJ (transcription,repressing) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (transcription,GENEXXX) Parse 347 +-------------------------SUBJ:V-N-------------------------+------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ +-------SUBJ:V-N------+----OBJ:V-N---+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+-COMP_of:N-N+ +OBJ:V-N+ | | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) COMP_of:N-N (specificity,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (containing,polymerase) SUBJ:V-N (containing,specificity) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) OBJ:V-N (containing,RNA) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 348 +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD_ATT:N-ADJ (RNA,containing) MOD:V-ADV (was,also) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 349 +-------------COMP_of:N-N------------+ | +------MOD_ATT:N-N------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (transcription,repressing) Parse 350 +-------------COMP_of:N-N------------+ | +------MOD_ATT:N-N------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+-------SUBJ:V-N------+ +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (stimulating,polymerase) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) Parse 351 +-------------------------SUBJ:V-N-------------------------+ +-------------COMP_of:N-N------------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | +---MOD_ATT:N-N--+ | +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+ +---OBJ:V-N---+ | +MOD_ATT+MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . MOD_ATT:N-N (polymerase,RNA) MOD:ADJ-ADV (repressing,markedly) MOD_ATT:N-ADJ (RNA,containing) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) SUBJ:V-N (stimulating,specificity) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (stimulating,transcription) OBJ:V-N (was,14-kD) MOD_ATT:N-ADJ (transcription,repressing) Parse 352 +-------------------------SUBJ:V-N-------------------------+ +-------------COMP_of:N-N------------+ | | +------MOD_ATT:N-N------+ +------------------------------OBJ:V-N-----------------------------+ +---OBJ:V-N--+ | | +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ +----MOD_ATT:N-ADJ---+ | +SUBJ:+MOD+ +---OBJ:V-N---+ | | +MOD_AT+ | +MOD_ATT:N-+ +MOD:ADJ-A+ +MOD_ATT:N-+ | | | | | | | | | | | | | | | | | A 14-kD protein was also discovered that changes the specificity of GENEXXX containing RNA polymerase , greatly stimulating GENEXXX transcription and markedly repressing GENEXXX transcription . SUBJ:V-N (stimulating,specificity) MOD:ADJ-ADV (repressing,markedly) OBJ:V-N (stimulating,transcription) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (changes,specificity) MOD:V-ADV (was,also) MOD_ATT:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (transcription,repressing) COMP_of:N-N (specificity,polymerase) SUBJ:V-N (was,protein) OBJ:V-N (stimulating,transcription) MOD_ATT:N-ADJ (polymerase,containing) OBJ:V-N (was,14-kD) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (transcription,GENEXXX) PMID: 2497052-2 Sentence 14 The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . Parse 0 +-------MOD_ATT:N-ADJ-------+ +--------------------COMP_during:V-N--------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------------COMP_in:V-N-------------+ | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_during:V-N (modulate,sporulation) MOD_ATT:N-ADJ (fashion,sequential) SUBJ:V-N (modulate,proteins) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) OBJ:V-N (modulate,transcription) MOD_ATT:N-ADJ (proteins,homologous) COMP_in:V-N (modulate,fashion) Parse 1 +-------MOD_ATT:N-ADJ-------+ +-------------------------------------COMP_during:V-N------------------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------------COMP_in:V-N-------------+ | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_during:V-N (encode,sporulation) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) COMP_in:V-N (modulate,fashion) Parse 2 +-------------------------------------COMP_during:V-N------------------------------------+ +-------MOD_ATT:N-ADJ-------+ +------------------------------COMP_in:V-N------------------------------+ | | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ | | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_during:V-N (encode,sporulation) OBJ:V-N (modulate,transcription) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) MOD_ATT:N-ADJ (proteins,homologous) SUBJ:V-N (encode,genes) COMP_in:V-N (encode,fashion) Parse 3 +-------MOD_ATT:N-ADJ-------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------------COMP_in:V-N-------------+ | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+-COMP_during:N-N+ | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_during:N-N (fashion,sporulation) SUBJ:V-N (modulate,proteins) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (modulate,transcription) MOD_ATT:N-ADJ (proteins,homologous) COMP_in:V-N (modulate,fashion) Parse 4 +-------MOD_ATT:N-ADJ-------+ +------------------------------COMP_in:V-N------------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+-COMP_during:N-N+ | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) COMP_during:N-N (fashion,sporulation) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) MOD_ATT:N-ADJ (fashion,sequential) COMP_in:V-N (encode,fashion) Parse 5 +-------MOD_ATT:N-ADJ-------+ +--------------------COMP_during:V-N--------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ | +--------COMP_in:N-N-------+ | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (transcription,fashion) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_during:V-N (modulate,sporulation) MOD_ATT:N-ADJ (fashion,sequential) SUBJ:V-N (modulate,proteins) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) OBJ:V-N (modulate,transcription) MOD_ATT:N-ADJ (proteins,homologous) Parse 6 +-------MOD_ATT:N-ADJ-------+ +--------------------COMP_during:V-N--------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------------COMP_in:V-N-------------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_during:V-N (modulate,sporulation) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) COMP_in:V-N (modulate,fashion) Parse 7 +-------MOD_ATT:N-ADJ-------+ +-------------------------------------COMP_during:V-N------------------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------COMP_in:N-N-------+ | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (transcription,fashion) COMP_during:V-N (encode,sporulation) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) Parse 8 +-------MOD_ATT:N-ADJ-------+ +-------------------------------------COMP_during:V-N------------------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------------COMP_in:V-N-------------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_during:V-N (encode,sporulation) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) MOD_ATT:N-ADJ (proteins,homologous) COMP_in:V-N (modulate,fashion) Parse 9 +-------MOD_ATT:N-ADJ-------+ +------------------------------------------COMP_during:V-N-----------------------------------------+ | +----MOD_ATT:N-N---+ | +------OBJ:V-N-----+ +--------------COMP_in:V-N-------------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . OBJ:V-N (encode,proteins) COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) MOD_ATT:N-ADJ (proteins,homologous) COMP_in:V-N (modulate,fashion) COMP_during:V-N (appear,sporulation) Parse 10 +-------------------------------------COMP_during:V-N------------------------------------+ +-------MOD_ATT:N-ADJ-------+ +------------------------------COMP_in:V-N------------------------------+ | | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ | | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) COMP_during:V-N (encode,sporulation) MOD_ATT:N-ADJ (proteins,homologous) COMP_in:V-N (encode,fashion) Parse 11 +------------------------------------------COMP_during:V-N-----------------------------------------+ +-------MOD_ATT:N-ADJ-------+ | +------------------------------COMP_in:V-N------------------------------+ | | +----MOD_ATT:N-N---+ | +------OBJ:V-N-----+ | | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . OBJ:V-N (encode,proteins) COMP_in:V-N (encode,fashion) COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) MOD_ATT:N-ADJ (proteins,homologous) COMP_during:V-N (appear,sporulation) Parse 12 +------------------------------------------COMP_during:V-N-----------------------------------------+ +-------MOD_ATT:N-ADJ-------+ +-----------------------------------COMP_in:V-N-----------------------------------+ | | +----MOD_ATT:N-N---+ | +------OBJ:V-N-----+ | | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_in:V-N (appear,fashion) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) COMP_during:V-N (appear,sporulation) OBJ:V-N (encode,proteins) MOD_ATT:N-ADJ (proteins,homologous) Parse 13 +-------MOD_ATT:N-ADJ-------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------COMP_in:N-N-------+ | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+-COMP_during:N-N+ | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (transcription,fashion) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_during:N-N (fashion,sporulation) SUBJ:V-N (modulate,proteins) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (modulate,transcription) MOD_ATT:N-ADJ (proteins,homologous) Parse 14 +-------MOD_ATT:N-ADJ-------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------------COMP_in:V-N-------------+ | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+-COMP_during:N-N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) COMP_during:N-N (fashion,sporulation) OBJ:V-N (encode,proteins) MOD_ATT:N-ADJ (fashion,sequential) COMP_in:V-N (modulate,fashion) Parse 15 +-------MOD_ATT:N-ADJ-------+ +--------------COMP_during:N-N--------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------COMP_in:N-N-------+ | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (transcription,fashion) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-ADJ (fashion,sequential) SUBJ:V-N (modulate,proteins) OBJ:V-N (encode,proteins) COMP_during:N-N (transcription,sporulation) SUBJ:V-N (encode,genes) OBJ:V-N (modulate,transcription) MOD_ATT:N-ADJ (proteins,homologous) Parse 16 +-------MOD_ATT:N-ADJ-------+ +------------------------------COMP_in:V-N------------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+-COMP_during:N-N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) COMP_during:N-N (fashion,sporulation) OBJ:V-N (encode,proteins) MOD_ATT:N-ADJ (proteins,homologous) MOD_ATT:N-ADJ (fashion,sequential) COMP_in:V-N (encode,fashion) Parse 17 +-------MOD_ATT:N-ADJ-------+ +--------------------COMP_during:V-N--------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ | +--------COMP_in:N-N-------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (transcription,fashion) COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_during:V-N (modulate,sporulation) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) Parse 18 +-------MOD_ATT:N-ADJ-------+ +-----------------------------------COMP_in:V-N-----------------------------------+ | +----MOD_ATT:N-N---+ | +------OBJ:V-N-----+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+-COMP_during:N-N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . OBJ:V-N (encode,proteins) COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_in:V-N (appear,fashion) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) COMP_during:N-N (fashion,sporulation) MOD_ATT:N-ADJ (proteins,homologous) MOD_ATT:N-ADJ (fashion,sequential) Parse 19 +-------MOD_ATT:N-ADJ-------+ +-------------------------------------COMP_during:V-N------------------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------COMP_in:N-N-------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (transcription,fashion) COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_during:V-N (encode,sporulation) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) MOD_ATT:N-ADJ (proteins,homologous) Parse 20 +-------MOD_ATT:N-ADJ-------+ +------------------------------------------COMP_during:V-N-----------------------------------------+ | +----MOD_ATT:N-N---+ | +------OBJ:V-N-----+ +--------COMP_in:N-N-------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . OBJ:V-N (encode,proteins) COMP_in:N-N (transcription,fashion) COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) MOD_ATT:N-ADJ (proteins,homologous) COMP_during:V-N (appear,sporulation) Parse 21 +-------MOD_ATT:N-ADJ-------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------COMP_in:N-N-------+ | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+-COMP_during:N-N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (transcription,fashion) COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) COMP_during:N-N (fashion,sporulation) OBJ:V-N (encode,proteins) MOD_ATT:N-ADJ (fashion,sequential) Parse 22 +-------MOD_ATT:N-ADJ-------+ +--------------COMP_during:N-N--------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------COMP_in:N-N-------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (transcription,fashion) COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) COMP_during:N-N (transcription,sporulation) Parse 23 +-------MOD_ATT:N-ADJ-------+ +---------------------------COMP_during:N-N---------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------------COMP_in:V-N-------------+ | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) SUBJ:V-N (modulate,proteins) OBJ:V-N (modulate,transcription) COMP_during:N-N (proteins,sporulation) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) MOD_ATT:N-ADJ (proteins,homologous) COMP_in:V-N (modulate,fashion) Parse 24 +-------MOD_ATT:N-ADJ-------+ +-------------------------------------COMP_during:V-N------------------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+---------------------COMP_in:N-N--------------------+ | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_during:V-N (encode,sporulation) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_in:N-N (proteins,fashion) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) Parse 25 +-------MOD_ATT:N-ADJ-------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+---------------------COMP_in:N-N--------------------+ | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+-COMP_during:N-N+ | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (proteins,fashion) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) SUBJ:V-N (modulate,proteins) OBJ:V-N (modulate,transcription) COMP_during:N-N (fashion,sporulation) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) MOD_ATT:N-ADJ (fashion,sequential) MOD_ATT:N-ADJ (proteins,homologous) Parse 26 +-------MOD_ATT:N-ADJ-------+ +---------------------------COMP_during:N-N---------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------COMP_in:N-N-------+ | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (transcription,fashion) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) SUBJ:V-N (modulate,proteins) OBJ:V-N (modulate,transcription) COMP_during:N-N (proteins,sporulation) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) MOD_ATT:N-ADJ (proteins,homologous) Parse 27 +-------MOD_ATT:N-ADJ-------+ +---------------------------COMP_during:N-N---------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------------COMP_in:V-N-------------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) COMP_during:N-N (proteins,sporulation) COMP_in:V-N (modulate,fashion) Parse 28 +-------MOD_ATT:N-ADJ-------+ +---------------------------COMP_during:N-N---------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+---------------------COMP_in:N-N--------------------+ | | | +MOD_AT+----SUBJ:V-N---+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (proteins,fashion) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) OBJ:V-N (modulate,transcription) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) SUBJ:V-N (encode,genes) COMP_during:N-N (proteins,sporulation) MOD_ATT:N-ADJ (proteins,homologous) Parse 29 +-------MOD_ATT:N-ADJ-------+ +-------------------------------------COMP_during:V-N------------------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+---------------------COMP_in:N-N--------------------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_during:V-N (encode,sporulation) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) COMP_in:N-N (proteins,fashion) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) MOD_ATT:N-ADJ (proteins,homologous) Parse 30 +-------MOD_ATT:N-ADJ-------+ +------------------------------------------COMP_during:V-N-----------------------------------------+ | +----MOD_ATT:N-N---+ | +------OBJ:V-N-----+---------------------COMP_in:N-N--------------------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . OBJ:V-N (encode,proteins) COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) COMP_in:N-N (proteins,fashion) MOD_ATT:N-ADJ (fashion,sequential) MOD_ATT:N-ADJ (proteins,homologous) COMP_during:V-N (appear,sporulation) Parse 31 +-------MOD_ATT:N-ADJ-------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+---------------------COMP_in:N-N--------------------+ | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+-COMP_during:N-N+ | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_in:N-N (proteins,fashion) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) COMP_during:N-N (fashion,sporulation) OBJ:V-N (encode,proteins) MOD_ATT:N-ADJ (fashion,sequential) Parse 32 +-------MOD_ATT:N-ADJ-------+ +---------------------------COMP_during:N-N---------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+ +--------COMP_in:N-N-------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_in:N-N (transcription,fashion) COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) COMP_during:N-N (proteins,sporulation) Parse 33 +-------MOD_ATT:N-ADJ-------+ +---------------------------COMP_during:N-N---------------------------+ | +----MOD_ATT:N-N---+ +------OBJ:V-N-----+---------------------COMP_in:N-N--------------------+ | | | +MOD_AT+SUBJ:+COMP_to:V+ +MOD_ATT:N+---SUBJ:V-N--+--OBJ:V-N--+ +MOD_ATT:N+ | | | | | | | | | | | | | | The tandemly arranged GENEXXX and GENEXXX genes appear to encode homologous proteins that modulate transcription in a sequential fashion during sporulation . COMP_to:V-V (appear,encode) MOD_ATT:N-ADJ (genes,arranged) MOD_ATT:N-N (genes,GENEXXX) MOD_ATT:N-N (genes,GENEXXX) COMP_in:N-N (proteins,fashion) MOD_ATT:N-ADJ (proteins,homologous) OBJ:V-N (modulate,transcription) SUBJ:V-N (appear,genes) SUBJ:V-N (modulate,proteins) MOD_ATT:N-ADJ (fashion,sequential) OBJ:V-N (encode,proteins) COMP_during:N-N (proteins,sporulation) PMID: 3127379-1 Sentence 15 Three promoters direct transcription of the GENEXXX ( GENEXXX ) operon in SPXXX . Parse 0 +-----------------------COMP_in:V-N-----------------------+ | +-------------COMP_of:N-N------------+ | | | +----MOD_ATT:N-N---+ | +SUBJ:V-+--OBJ:V-N-+ | +MOD_ATT:+ | | | | | | | | Three promoters direct transcription of the GENEXXX ( GENEXXX ) operon in SPXXX . COMP_of:N-N (transcription,operon) COMP_in:V-N (direct,SPXXX) MOD_ATT:N-N (operon,GENEXXX) OBJ:V-N (direct,transcription) SUBJ:V-N (direct,promoters) MOD_ATT:N-N (operon,GENEXXX) Parse 1 +-----------------------COMP_in:V-N-----------------------+ +SUBJ:V-+--OBJ:V-N-+---COMP_of:N-N---+--APPOS--+ | | | | | | | Three promoters direct transcription of the GENEXXX ( GENEXXX ) operon in SPXXX . COMP_in:V-N (direct,SPXXX) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (direct,transcription) SUBJ:V-N (direct,promoters) APPOS (GENEXXX,GENEXXX) Parse 2 +-----------------------COMP_in:V-N-----------------------+ | +-----------APPOS-----------+ | +SUBJ:V-+--OBJ:V-N-+---COMP_of:N-N---+ | | | | | | | | Three promoters direct transcription of the GENEXXX ( GENEXXX ) operon in SPXXX . COMP_in:V-N (direct,SPXXX) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (direct,transcription) SUBJ:V-N (direct,promoters) APPOS (transcription,GENEXXX) Parse 3 +-------------COMP_of:N-N------------+ | +----MOD_ATT:N-N---+ +SUBJ:V-+--OBJ:V-N-+ | +MOD_ATT:+COMP_in:N+ | | | | | | | Three promoters direct transcription of the GENEXXX ( GENEXXX ) operon in SPXXX . COMP_of:N-N (transcription,operon) MOD_ATT:N-N (operon,GENEXXX) OBJ:V-N (direct,transcription) SUBJ:V-N (direct,promoters) MOD_ATT:N-N (operon,GENEXXX) COMP_in:N-N (operon,SPXXX) Parse 4 +------------------COMP_in:N-N-----------------+ +-------------COMP_of:N-N------------+ | | +----MOD_ATT:N-N---+ | +SUBJ:V-+--OBJ:V-N-+ | +MOD_ATT:+ | | | | | | | | Three promoters direct transcription of the GENEXXX ( GENEXXX ) operon in SPXXX . COMP_of:N-N (transcription,operon) MOD_ATT:N-N (operon,GENEXXX) OBJ:V-N (direct,transcription) SUBJ:V-N (direct,promoters) COMP_in:N-N (transcription,SPXXX) MOD_ATT:N-N (operon,GENEXXX) Parse 5 +------------------COMP_in:N-N-----------------+ +SUBJ:V-+--OBJ:V-N-+---COMP_of:N-N---+--APPOS--+ | | | | | | | Three promoters direct transcription of the GENEXXX ( GENEXXX ) operon in SPXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (direct,transcription) SUBJ:V-N (direct,promoters) COMP_in:N-N (transcription,SPXXX) APPOS (GENEXXX,GENEXXX) PMID: 3114422-1 Sentence 16 One branch leads to expression of GENEXXX within the spore compartment , the other to expression of GENEXXX in the mother cell . Parse 0 +------------------COMP_within:V-N-----------------+ +----COMP_in:N-N----+ +SUBJ:V+COMP_to:V-+-COMP_of:N-N+ +MOD_ATT:+----------APPOS----------+-COMP_of:N-N+ +MOD_A+ | | | | | | | | | | One branch leads to expression of GENEXXX within the spore compartment , the other to expression of GENEXXX in the mother cell . APPOS (compartment,expression) COMP_within:V-N (leads,compartment) COMP_to:V-N (leads,expression) COMP_of:N-N (expression,GENEXXX) MOD_ATT:N-N (cell,mother) SUBJ:V-N (leads,branch) COMP_in:N-N (GENEXXX,cell) MOD_ATT:N-N (compartment,spore) COMP_of:N-N (expression,GENEXXX) Parse 1 +------------------COMP_within:V-N-----------------+ +-----------COMP_in:N-N----------+ +SUBJ:V+COMP_to:V-+-COMP_of:N-N+ +MOD_ATT:+----------APPOS----------+-COMP_of:N-N+ +MOD_A+ | | | | | | | | | | One branch leads to expression of GENEXXX within the spore compartment , the other to expression of GENEXXX in the mother cell . APPOS (compartment,expression) COMP_within:V-N (leads,compartment) COMP_to:V-N (leads,expression) COMP_of:N-N (expression,GENEXXX) COMP_in:N-N (expression,cell) MOD_ATT:N-N (cell,mother) SUBJ:V-N (leads,branch) MOD_ATT:N-N (compartment,spore) COMP_of:N-N (expression,GENEXXX) Parse 2 +------COMP_within:N-N-----+ +----COMP_in:N-N----+ +SUBJ:V+COMP_to:V-+-COMP_of:N-N+ +MOD_ATT:+----------APPOS----------+-COMP_of:N-N+ +MOD_A+ | | | | | | | | | | One branch leads to expression of GENEXXX within the spore compartment , the other to expression of GENEXXX in the mother cell . APPOS (compartment,expression) COMP_to:V-N (leads,expression) COMP_of:N-N (expression,GENEXXX) COMP_within:N-N (GENEXXX,compartment) MOD_ATT:N-N (cell,mother) SUBJ:V-N (leads,branch) COMP_in:N-N (GENEXXX,cell) MOD_ATT:N-N (compartment,spore) COMP_of:N-N (expression,GENEXXX) Parse 3 +------COMP_within:N-N-----+ +-----------COMP_in:N-N----------+ +SUBJ:V+COMP_to:V-+-COMP_of:N-N+ +MOD_ATT:+----------APPOS----------+-COMP_of:N-N+ +MOD_A+ | | | | | | | | | | One branch leads to expression of GENEXXX within the spore compartment , the other to expression of GENEXXX in the mother cell . APPOS (compartment,expression) COMP_to:V-N (leads,expression) COMP_of:N-N (expression,GENEXXX) COMP_in:N-N (expression,cell) COMP_within:N-N (GENEXXX,compartment) MOD_ATT:N-N (cell,mother) SUBJ:V-N (leads,branch) MOD_ATT:N-N (compartment,spore) COMP_of:N-N (expression,GENEXXX) Parse 4 +------------COMP_within:N-N------------+ +----COMP_in:N-N----+ +SUBJ:V+COMP_to:V-+-COMP_of:N-N+ +MOD_ATT:+----------APPOS----------+-COMP_of:N-N+ +MOD_A+ | | | | | | | | | | One branch leads to expression of GENEXXX within the spore compartment , the other to expression of GENEXXX in the mother cell . APPOS (compartment,expression) COMP_to:V-N (leads,expression) COMP_of:N-N (expression,GENEXXX) MOD_ATT:N-N (cell,mother) SUBJ:V-N (leads,branch) COMP_in:N-N (GENEXXX,cell) COMP_within:N-N (expression,compartment) MOD_ATT:N-N (compartment,spore) COMP_of:N-N (expression,GENEXXX) Parse 5 +------------------------APPOS-----------------------+ +------COMP_within:N-N-----+ | +----COMP_in:N-N----+ +SUBJ:V+COMP_to:V-+-COMP_of:N-N+ +MOD_ATT:+ +-COMP_of:N-N+ +MOD_A+ | | | | | | | | | | One branch leads to expression of GENEXXX within the spore compartment , the other to expression of GENEXXX in the mother cell . APPOS (GENEXXX,expression) COMP_to:V-N (leads,expression) COMP_of:N-N (expression,GENEXXX) COMP_within:N-N (GENEXXX,compartment) MOD_ATT:N-N (cell,mother) SUBJ:V-N (leads,branch) COMP_in:N-N (GENEXXX,cell) MOD_ATT:N-N (compartment,spore) COMP_of:N-N (expression,GENEXXX) Parse 6 +------------COMP_within:N-N------------+ +-----------COMP_in:N-N----------+ +SUBJ:V+COMP_to:V-+-COMP_of:N-N+ +MOD_ATT:+----------APPOS----------+-COMP_of:N-N+ +MOD_A+ | | | | | | | | | | One branch leads to expression of GENEXXX within the spore compartment , the other to expression of GENEXXX in the mother cell . APPOS (compartment,expression) COMP_to:V-N (leads,expression) COMP_of:N-N (expression,GENEXXX) COMP_in:N-N (expression,cell) MOD_ATT:N-N (cell,mother) SUBJ:V-N (leads,branch) COMP_within:N-N (expression,compartment) MOD_ATT:N-N (compartment,spore) COMP_of:N-N (expression,GENEXXX) Parse 7 +------------------------APPOS-----------------------+ +------COMP_within:N-N-----+ +-----------COMP_in:N-N----------+ +SUBJ:V+COMP_to:V-+-COMP_of:N-N+ +MOD_ATT:+ +-COMP_of:N-N+ +MOD_A+ | | | | | | | | | | One branch leads to expression of GENEXXX within the spore compartment , the other to expression of GENEXXX in the mother cell . APPOS (GENEXXX,expression) COMP_to:V-N (leads,expression) COMP_of:N-N (expression,GENEXXX) COMP_in:N-N (expression,cell) COMP_within:N-N (GENEXXX,compartment) MOD_ATT:N-N (cell,mother) SUBJ:V-N (leads,branch) MOD_ATT:N-N (compartment,spore) COMP_of:N-N (expression,GENEXXX) PMID: 7494477-2 Sentence 17 One type of promoter is used by RNA polymerase containing GENEXXX , whereas the other type is used by RNA polymerase containing GENEXXX . Parse 0 +COMP_by:V_PASS+ +COMP_by:V_PASS+ +-SUBJ:V_PASS-N-+ +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ +SUBJ:V_+ +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | | | | | | | | | | | One type of promoter is used by RNA polymerase containing GENEXXX , whereas the other type is used by RNA polymerase containing GENEXXX . SUBJ:V-N (containing,polymerase) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (used,polymerase) SUBJ:V_PASS-N (used,type) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (used,of) OBJ:V-N (containing,GENEXXX) COMP_by:V_PASS-N (used,polymerase) Parse 1 +----------COMP_by:V_PASS-N---------+ | +-----MOD_ATT:N-N----+ +COMP_by:V_PASS+ +-SUBJ:V_PASS-N-+ +MOD_AT+ +MOD_ATT:N+ +SUBJ:V_+ +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | | | | | | | | | | | One type of promoter is used by RNA polymerase containing GENEXXX , whereas the other type is used by RNA polymerase containing GENEXXX . SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (used,GENEXXX) SUBJ:V_PASS-N (used,type) MOD_ATT:N-ADJ (GENEXXX,containing) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (used,of) OBJ:V-N (containing,GENEXXX) COMP_by:V_PASS-N (used,polymerase) Parse 2 +----------COMP_by:V_PASS-N---------+ +COMP_by:V_PASS+ | +-----MOD_ATT:N-N----+ +-SUBJ:V_PASS-N-+ +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ +SUBJ:V_+ +MOD_AT+ +MOD_ATT:N+ | | | | | | | | | | | | One type of promoter is used by RNA polymerase containing GENEXXX , whereas the other type is used by RNA polymerase containing GENEXXX . OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (used,polymerase) MOD_ATT:N-ADJ (GENEXXX,containing) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (used,GENEXXX) SUBJ:V_PASS-N (used,type) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (used,of) Parse 3 +----------COMP_by:V_PASS-N---------+ | +--------MOD_ATT:N-N--------+ | | +-----MOD_ATT:N-N----+ +COMP_by:V_PASS+ +-SUBJ:V_PASS-N-+ | | +MOD_ATT:N+ +SUBJ:V_+ +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ | | | | | | | | | | | | One type of promoter is used by RNA polymerase containing GENEXXX , whereas the other type is used by RNA polymerase containing GENEXXX . SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (used,GENEXXX) SUBJ:V_PASS-N (used,type) MOD_ATT:N-ADJ (GENEXXX,containing) MOD_ATT:N-N (GENEXXX,RNA) SUBJ:V_PASS-N (used,of) OBJ:V-N (containing,GENEXXX) COMP_by:V_PASS-N (used,polymerase) Parse 4 +----------COMP_by:V_PASS-N---------+ | +--------MOD_ATT:N-N--------+ +COMP_by:V_PASS+ | | +-----MOD_ATT:N-N----+ +-SUBJ:V_PASS-N-+ +MOD_AT+-SUBJ:V-N-+-OBJ:V-N-+ +SUBJ:V_+ | | +MOD_ATT:N+ | | | | | | | | | | | | One type of promoter is used by RNA polymerase containing GENEXXX , whereas the other type is used by RNA polymerase containing GENEXXX . OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) COMP_by:V_PASS-N (used,polymerase) MOD_ATT:N-ADJ (GENEXXX,containing) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (used,GENEXXX) SUBJ:V_PASS-N (used,type) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,RNA) SUBJ:V_PASS-N (used,of) Parse 5 +----------COMP_by:V_PASS-N---------+ +----------COMP_by:V_PASS-N---------+ | +-----MOD_ATT:N-N----+ | +-----MOD_ATT:N-N----+ +-SUBJ:V_PASS-N-+ +MOD_AT+ +MOD_ATT:N+ +SUBJ:V_+ +MOD_AT+ +MOD_ATT:N+ | | | | | | | | | | | | One type of promoter is used by RNA polymerase containing GENEXXX , whereas the other type is used by RNA polymerase containing GENEXXX . MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,polymerase) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (used,GENEXXX) SUBJ:V_PASS-N (used,type) MOD_ATT:N-ADJ (GENEXXX,containing) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (used,of) Parse 6 +----------COMP_by:V_PASS-N---------+ +----------COMP_by:V_PASS-N---------+ | +--------MOD_ATT:N-N--------+ | +-----MOD_ATT:N-N----+ | | +-----MOD_ATT:N-N----+ +-SUBJ:V_PASS-N-+ +MOD_AT+ +MOD_ATT:N+ +SUBJ:V_+ | | +MOD_ATT:N+ | | | | | | | | | | | | One type of promoter is used by RNA polymerase containing GENEXXX , whereas the other type is used by RNA polymerase containing GENEXXX . MOD_ATT:N-N (GENEXXX,polymerase) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (used,GENEXXX) SUBJ:V_PASS-N (used,type) MOD_ATT:N-ADJ (GENEXXX,containing) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,RNA) SUBJ:V_PASS-N (used,of) Parse 7 +----------COMP_by:V_PASS-N---------+ | +--------MOD_ATT:N-N--------+ +----------COMP_by:V_PASS-N---------+ | | +-----MOD_ATT:N-N----+ | +-----MOD_ATT:N-N----+ +-SUBJ:V_PASS-N-+ | | +MOD_ATT:N+ +SUBJ:V_+ +MOD_AT+ +MOD_ATT:N+ | | | | | | | | | | | | One type of promoter is used by RNA polymerase containing GENEXXX , whereas the other type is used by RNA polymerase containing GENEXXX . MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,polymerase) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (used,GENEXXX) SUBJ:V_PASS-N (used,type) MOD_ATT:N-ADJ (GENEXXX,containing) MOD_ATT:N-N (GENEXXX,RNA) SUBJ:V_PASS-N (used,of) Parse 8 +----------COMP_by:V_PASS-N---------+ +----------COMP_by:V_PASS-N---------+ | +--------MOD_ATT:N-N--------+ | +--------MOD_ATT:N-N--------+ | | +-----MOD_ATT:N-N----+ | | +-----MOD_ATT:N-N----+ +-SUBJ:V_PASS-N-+ | | +MOD_ATT:N+ +SUBJ:V_+ | | +MOD_ATT:N+ | | | | | | | | | | | | One type of promoter is used by RNA polymerase containing GENEXXX , whereas the other type is used by RNA polymerase containing GENEXXX . MOD_ATT:N-N (GENEXXX,polymerase) MOD_ATT:N-ADJ (GENEXXX,containing) COMP_by:V_PASS-N (used,GENEXXX) MOD_ATT:N-N (GENEXXX,polymerase) COMP_by:V_PASS-N (used,GENEXXX) SUBJ:V_PASS-N (used,type) MOD_ATT:N-ADJ (GENEXXX,containing) MOD_ATT:N-N (GENEXXX,RNA) MOD_ATT:N-N (GENEXXX,RNA) SUBJ:V_PASS-N (used,of) PMID: 7592487-1 Sentence 18 The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . Parse 0 +-------SUBJ:V_PASS-N-------+-COMP_by:V_PASS-N+ +----------COMP_like:V-N----------+ +--COMP_of:N-N--+ | +MOD_AT+-SUBJ:V-N-+---OBJ:V-N---+ +MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_by:V_PASS-N (recognized,polymerase) COMP_of:N-N (promoter,operon) OBJ:V-N (containing,GENEXXX) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) COMP_like:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (GENEXXX,factor) Parse 1 +-------SUBJ:V_PASS-N-------+-COMP_by:V_PASS-N+ +-------------OBJ:V-N-------------+ +--COMP_of:N-N--+ | +MOD_AT+-SUBJ:V-N-+ +MOD_ATT:N-N+MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_by:V_PASS-N (recognized,polymerase) COMP_of:N-N (promoter,operon) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (factor,GENEXXX) SUBJ:V-N (containing,polymerase) OBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (GENEXXX,factor) Parse 2 +----------------------COMP_like:V_PASS-N----------------------+ +-------SUBJ:V_PASS-N-------+-COMP_by:V_PASS-N+ | +--COMP_of:N-N--+ | +MOD_AT+-SUBJ:V-N-+---OBJ:V-N---+ +MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_by:V_PASS-N (recognized,polymerase) COMP_of:N-N (promoter,operon) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) COMP_like:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (GENEXXX,factor) Parse 3 +-------SUBJ:V_PASS-N-------+-COMP_by:V_PASS-N+ +---COMP_like:N-N---+ +--COMP_of:N-N--+ | +MOD_AT+-SUBJ:V-N-+---OBJ:V-N---+ +MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_by:V_PASS-N (recognized,polymerase) COMP_of:N-N (promoter,operon) OBJ:V-N (containing,GENEXXX) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) COMP_like:N-N (GENEXXX,GENEXXX) SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (GENEXXX,factor) Parse 4 +-------SUBJ:V_PASS-N-------+-COMP_by:V_PASS-N+----------------COMP_like:N-N---------------+ +--COMP_of:N-N--+ | +MOD_AT+-SUBJ:V-N-+---OBJ:V-N---+ +MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_by:V_PASS-N (recognized,polymerase) COMP_of:N-N (promoter,operon) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) COMP_like:N-N (polymerase,GENEXXX) MOD_ATT:N-N (GENEXXX,factor) Parse 5 +-------SUBJ:V_PASS-N-------+-COMP_by:V_PASS-N+ +-------------OBJ:V-N-------------+ +--COMP_of:N-N--+ | +MOD_AT+-SUBJ:V-N-+------OBJ:V-N------+ +MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_by:V_PASS-N (recognized,polymerase) COMP_of:N-N (promoter,operon) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,like) SUBJ:V-N (containing,polymerase) MOD_ATT:N-N (GENEXXX,factor) Parse 6 +-------------OBJ:V-N-------------+ +-------SUBJ:V_PASS-N-------+-COMP_by:V_PASS-N+ +---------OBJ:V-N---------+ | +--COMP_of:N-N--+ | +MOD_AT+-SUBJ:V-N-+ +MOD_ATT:N-N+ | | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_by:V_PASS-N (recognized,polymerase) COMP_of:N-N (promoter,operon) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,factor) MOD_ATT:N-N (factor,GENEXXX) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) Parse 7 +-------------OBJ:V-N-------------+ +-------SUBJ:V_PASS-N-------+-COMP_by:V_PASS-N+ +---------OBJ:V-N---------+ | +--COMP_of:N-N--+ | +MOD_AT+-SUBJ:V-N-+------OBJ:V-N------+ | | | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_by:V_PASS-N (recognized,polymerase) COMP_of:N-N (promoter,operon) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,factor) OBJ:V-N (containing,GENEXXX) OBJ:V-N (containing,like) SUBJ:V-N (containing,polymerase) Parse 8 +-------SUBJ:V_PASS-N-------+-COMP_by:V_PASS-N+ +-------------OBJ:V-N-------------+ +--COMP_of:N-N--+ | +MOD_AT+-SUBJ:V-N-+---OBJ:V-N---+COMP_like:N+ | | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_like:N-N (GENEXXX,factor) COMP_by:V_PASS-N (recognized,polymerase) COMP_of:N-N (promoter,operon) OBJ:V-N (containing,GENEXXX) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (containing,GENEXXX) SUBJ:V-N (containing,polymerase) Parse 9 +-------SUBJ:V_PASS-N-------+-COMP_by:V_PASS-N+ +-------------OBJ:V-N-------------+ +--COMP_of:N-N--+ | +MOD_AT+-SUBJ:V-N-+ +MOD_ATT+ | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_by:V_PASS-N (recognized,polymerase) COMP_of:N-N (promoter,operon) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) SUBJ:V-N (containing,polymerase) OBJ:V-N (containing,GENEXXX) Parse 10 +----------------------COMP_like:V_PASS-N----------------------+ +-------------COMP_by:V_PASS-N-------------+ | +-------SUBJ:V_PASS-N-------+ +-------MOD_ATT:N-N------+ | +--COMP_of:N-N--+ | +MOD_AT+ +MOD_ATT:N-ADJ+ +MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_of:N-N (promoter,operon) MOD_ATT:N-ADJ (GENEXXX,containing) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,polymerase) COMP_like:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (GENEXXX,factor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 11 +----------------------COMP_like:V_PASS-N----------------------+ +-------------COMP_by:V_PASS-N-------------+ | | +----------MOD_ATT:N-N----------+ | +-------SUBJ:V_PASS-N-------+ | +-------MOD_ATT:N-N------+ | +--COMP_of:N-N--+ | | | +MOD_ATT:N-ADJ+ +MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_of:N-N (promoter,operon) MOD_ATT:N-N (GENEXXX,RNA) MOD_ATT:N-ADJ (GENEXXX,containing) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (GENEXXX,polymerase) COMP_like:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (GENEXXX,factor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 12 +-----------------------COMP_by:V_PASS-N-----------------------+ | +-----------------MOD_ATT:N-N----------------+ +-------SUBJ:V_PASS-N-------+ | +----------MOD_ATT:N-ADJ----------+ +--COMP_of:N-N--+ | +MOD_AT+ | +MOD_ATT:N-N+MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_of:N-N (promoter,operon) MOD_ATT:N-ADJ (GENEXXX,containing) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,polymerase) MOD_ATT:N-N (factor,GENEXXX) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (GENEXXX,factor) Parse 13 +-----------------------COMP_by:V_PASS-N-----------------------+ | +--------------------MOD_ATT:N-N--------------------+ | | +-----------------MOD_ATT:N-N----------------+ +-------SUBJ:V_PASS-N-------+ | | +----------MOD_ATT:N-ADJ----------+ +--COMP_of:N-N--+ | | | | +MOD_ATT:N-N+MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_of:N-N (promoter,operon) MOD_ATT:N-ADJ (GENEXXX,containing) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (GENEXXX,polymerase) MOD_ATT:N-N (factor,GENEXXX) MOD_ATT:N-N (GENEXXX,RNA) COMP_by:V_PASS-N (recognized,GENEXXX) MOD_ATT:N-N (GENEXXX,factor) Parse 14 +-------------COMP_by:V_PASS-N-------------+ +-------SUBJ:V_PASS-N-------+ +-------MOD_ATT:N-N------+---COMP_like:N-N---+ +--COMP_of:N-N--+ | +MOD_AT+ +MOD_ATT:N-ADJ+ +MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_of:N-N (promoter,operon) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-N (polymerase,RNA) COMP_like:N-N (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,polymerase) MOD_ATT:N-ADJ (GENEXXX,containing) MOD_ATT:N-N (GENEXXX,factor) COMP_by:V_PASS-N (recognized,GENEXXX) Parse 15 +-------------COMP_by:V_PASS-N-------------+ | +----------MOD_ATT:N-N----------+ +-------SUBJ:V_PASS-N-------+ | +-------MOD_ATT:N-N------+---COMP_like:N-N---+ +--COMP_of:N-N--+ | | | +MOD_ATT:N-ADJ+ +MOD_ATT+ | | | | | | | | | The promoter of this operon is recognized by RNA polymerase containing the GENEXXX like factor GENEXXX . COMP_of:N-N (promoter,operon) MOD_ATT:N-N (GENEXXX,RNA) SUBJ:V_PASS-N (recognized,promoter) COMP_like:N-N (GENEXXX,GENEXXX) MOD_ATT:N-N (GENEXXX,polymerase) MOD_ATT:N-ADJ (GENEXXX,containing) MOD_ATT:N-N (GENEXXX,factor) COMP_by:V_PASS-N (recognized,GENEXXX) PMID: 7679386-1 Sentence 19 Such promoters depend on sigma factors ( GENEXXX and GENEXXX , respectively ) particularly similar to the deduced GENEXXX gene product . Parse 0 +-----------COMP_to:ADJ-N-----------+ +---COMP_on:V-N--+--------APPOS--------+ | +MOD_ATT:N-ADJ+ | +SUBJ:V-+ +MOD_AT+--APPOS--+ | | | +MOD_A+MOD_AT+ | | | | | | | | | | | Such promoters depend on sigma factors ( GENEXXX and GENEXXX , respectively ) particularly similar to the deduced GENEXXX gene product . MOD_ATT:N-N (factors,sigma) COMP_to:ADJ-N (similar,product) MOD_ATT:N-N (gene,GENEXXX) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) MOD_ATT:N-N (product,gene) SUBJ:V-N (depend,promoters) MOD_ATT:N-ADJ (gene,deduced) COMP_on:V-N (depend,factors) Parse 1 +-----------COMP_to:ADJ-N-----------+ +---COMP_on:V-N--+--------APPOS--------+ | +MOD_ATT:N-ADJ+ | +SUBJ:V-+ +MOD_AT+--APPOS--+ | +MOD:ADJ-AD+ | +MOD_A+MOD_AT+ | | | | | | | | | | | | Such promoters depend on sigma factors ( GENEXXX and GENEXXX , respectively ) particularly similar to the deduced GENEXXX gene product . MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (gene,deduced) APPOS (factors,GENEXXX) MOD_ATT:N-N (gene,GENEXXX) APPOS (factors,GENEXXX) MOD_ATT:N-N (product,gene) SUBJ:V-N (depend,promoters) COMP_to:ADJ-N (similar,product) COMP_on:V-N (depend,factors) MOD:ADJ-ADV (similar,particularly) Parse 2 +-----------COMP_to:ADJ-N-----------+ +---COMP_on:V-N--+--------APPOS--------+ | +----MOD_ATT:N-ADJ---+ +SUBJ:V-+ +MOD_AT+--APPOS--+ | | | +MOD_A+MOD_AT+ | | | | | | | | | | | Such promoters depend on sigma factors ( GENEXXX and GENEXXX , respectively ) particularly similar to the deduced GENEXXX gene product . MOD_ATT:N-N (factors,sigma) COMP_to:ADJ-N (similar,product) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (product,deduced) APPOS (factors,GENEXXX) MOD_ATT:N-N (product,gene) SUBJ:V-N (depend,promoters) MOD_ATT:N-N (gene,GENEXXX) COMP_on:V-N (depend,factors) Parse 3 +-----------COMP_to:ADJ-N-----------+ +---COMP_on:V-N--+--------APPOS--------+ | +----MOD_ATT:N-ADJ---+ +SUBJ:V-+ +MOD_AT+--APPOS--+ | +MOD:ADJ-AD+ | +MOD_A+MOD_AT+ | | | | | | | | | | | | Such promoters depend on sigma factors ( GENEXXX and GENEXXX , respectively ) particularly similar to the deduced GENEXXX gene product . MOD_ATT:N-ADJ (product,deduced) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (gene,GENEXXX) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) MOD_ATT:N-N (product,gene) SUBJ:V-N (depend,promoters) COMP_to:ADJ-N (similar,product) COMP_on:V-N (depend,factors) MOD:ADJ-ADV (similar,particularly) Parse 4 +-----------COMP_to:ADJ-N-----------+ | +----MOD_ATT:N-ADJ---+ +---COMP_on:V-N--+--------APPOS--------+ | | +-MOD_ATT:N-N+ +SUBJ:V-+ +MOD_AT+--APPOS--+ | | | | +MOD_AT+ | | | | | | | | | | | Such promoters depend on sigma factors ( GENEXXX and GENEXXX , respectively ) particularly similar to the deduced GENEXXX gene product . MOD_ATT:N-ADJ (product,deduced) MOD_ATT:N-N (factors,sigma) COMP_to:ADJ-N (similar,product) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) MOD_ATT:N-N (product,gene) SUBJ:V-N (depend,promoters) COMP_on:V-N (depend,factors) MOD_ATT:N-N (product,GENEXXX) Parse 5 +-----------COMP_to:ADJ-N-----------+ | +----MOD_ATT:N-ADJ---+ +---COMP_on:V-N--+--------APPOS--------+ | | +-MOD_ATT:N-N+ +SUBJ:V-+ +MOD_AT+--APPOS--+ | +MOD:ADJ-AD+ | | +MOD_AT+ | | | | | | | | | | | | Such promoters depend on sigma factors ( GENEXXX and GENEXXX , respectively ) particularly similar to the deduced GENEXXX gene product . MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (product,deduced) APPOS (factors,GENEXXX) MOD_ATT:N-N (product,gene) SUBJ:V-N (depend,promoters) COMP_to:ADJ-N (similar,product) COMP_on:V-N (depend,factors) MOD:ADJ-ADV (similar,particularly) MOD_ATT:N-N (product,GENEXXX) Parse 6 +---------------------------------------------------COMP_to:V-N--------------------------------------------------+ +----------------------------MOD:V-ADV----------------------------+ | +---------------------MOD:V-ADV--------------------+ | | +---COMP_on:V-N--+--------APPOS--------+ | | +MOD_ATT:N-ADJ+ | +SUBJ:V-+ +MOD_AT+--APPOS--+ | | | | +MOD_A+MOD_AT+ | | | | | | | | | | | | Such promoters depend on sigma factors ( GENEXXX and GENEXXX , respectively ) particularly similar to the deduced GENEXXX gene product . MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (gene,deduced) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (depend,particularly) COMP_to:V-N (depend,product) MOD_ATT:N-N (product,gene) APPOS (factors,GENEXXX) MOD:V-ADV (depend,respectively) SUBJ:V-N (depend,promoters) APPOS (factors,GENEXXX) COMP_on:V-N (depend,factors) Parse 7 +---------------------------------------------------COMP_to:V-N--------------------------------------------------+ +----------------------------MOD:V-ADV----------------------------+ | +---------------------MOD:V-ADV--------------------+ | | +---COMP_on:V-N--+--------APPOS--------+ | | +----MOD_ATT:N-ADJ---+ +SUBJ:V-+ +MOD_AT+--APPOS--+ | | | | +MOD_A+MOD_AT+ | | | | | | | | | | | | Such promoters depend on sigma factors ( GENEXXX and GENEXXX , respectively ) particularly similar to the deduced GENEXXX gene product . MOD_ATT:N-ADJ (product,deduced) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (depend,particularly) COMP_to:V-N (depend,product) MOD_ATT:N-N (product,gene) APPOS (factors,GENEXXX) MOD:V-ADV (depend,respectively) SUBJ:V-N (depend,promoters) APPOS (factors,GENEXXX) COMP_on:V-N (depend,factors) Parse 8 +---------------------------------------------------COMP_to:V-N--------------------------------------------------+ +----------------------------MOD:V-ADV----------------------------+ | +---------------------MOD:V-ADV--------------------+ | +----MOD_ATT:N-ADJ---+ +---COMP_on:V-N--+--------APPOS--------+ | | | +-MOD_ATT:N-N+ +SUBJ:V-+ +MOD_AT+--APPOS--+ | | | | | +MOD_AT+ | | | | | | | | | | | | Such promoters depend on sigma factors ( GENEXXX and GENEXXX , respectively ) particularly similar to the deduced GENEXXX gene product . MOD_ATT:N-ADJ (product,deduced) MOD_ATT:N-N (factors,sigma) MOD:V-ADV (depend,particularly) COMP_to:V-N (depend,product) MOD_ATT:N-N (product,gene) APPOS (factors,GENEXXX) MOD:V-ADV (depend,respectively) SUBJ:V-N (depend,promoters) APPOS (factors,GENEXXX) COMP_on:V-N (depend,factors) MOD_ATT:N-N (product,GENEXXX) PMID: 7966271-1 Sentence 20 Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . Parse 0 +-------------COMP_by:ADJ-N------------+ +--------------MOD_PRED:N-ADJ-------------+ +---MOD_ATT:N-N---+ | +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (gene,Mother-cell-specific) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-N (RNA,GENEXXX) Parse 1 +-----------COMP_by:V_PASS-N-----------+ +--------------SUBJ:V_PASS-N--------------+ +---MOD_ATT:N-N---+ | +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_ATT:N-N (RNA,GENEXXX) Parse 2 +-------------COMP_by:ADJ-N------------+ | +-------MOD_ATT:N-N-------+ +--------------MOD_PRED:N-ADJ-------------+ | +-MOD_ATT:N-N-+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (gene,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_PRED:N-ADJ (expression,controlled) Parse 3 +-------------COMP_by:ADJ-N------------+ +-----MOD_ATT:N-N----+--------------MOD_PRED:N-ADJ-------------+ +---MOD_ATT:N-N---+ | | +MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_PRED:N-ADJ (expression,controlled) MOD_ATT:N-N (RNA,GENEXXX) Parse 4 +-----------COMP_by:V_PASS-N-----------+ | +-------MOD_ATT:N-N-------+ +--------------SUBJ:V_PASS-N--------------+ | +-MOD_ATT:N-N-+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (polymerases,GENEXXX) COMP_of:N-N (sporulation,SPXXX) Parse 5 +-----------COMP_by:V_PASS-N-----------+ +-----MOD_ATT:N-N----+--------------SUBJ:V_PASS-N--------------+ +---MOD_ATT:N-N---+ | | +MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_ATT:N-N (RNA,GENEXXX) Parse 6 +-------------COMP_by:ADJ-N------------+ | +-------MOD_ATT:N-N-------+ +-----MOD_ATT:N-N----+--------------MOD_PRED:N-ADJ-------------+ | +-MOD_ATT:N-N-+ | +MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (polymerases,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_PRED:N-ADJ (expression,controlled) Parse 7 +--------------MOD_PRED:N-ADJ-------------+-------------COMP_by:ADJ-N------------+ +----------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (gene,Mother-cell-specific) MOD_ATT:N-N (RNA,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) COMP_of:N-N (expression,SPXXX) MOD_ATT:N-N (RNA,GENEXXX) Parse 8 +-----------COMP_by:V_PASS-N-----------+ | +-------MOD_ATT:N-N-------+ +-----MOD_ATT:N-N----+--------------SUBJ:V_PASS-N--------------+ | +-MOD_ATT:N-N-+ | +MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (polymerases,GENEXXX) COMP_of:N-N (sporulation,SPXXX) Parse 9 +--------------SUBJ:V_PASS-N--------------+-----------COMP_by:V_PASS-N-----------+ +----------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (expression,SPXXX) MOD_ATT:N-N (RNA,GENEXXX) Parse 10 +-------------COMP_by:ADJ-N------------+ +--------------MOD_PRED:N-ADJ-------------+ +-------MOD_ATT:N-N-------+ +----------COMP_of:N-N---------+ | | +-MOD_ATT:N-N-+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+ | | | | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (gene,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) COMP_of:N-N (expression,SPXXX) Parse 11 +--------------MOD_PRED:N-ADJ-------------+-------------COMP_by:ADJ-N------------+ +-----MOD_ATT:N-N----+----------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+--COMP_during:N-N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (RNA,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) COMP_of:N-N (expression,SPXXX) MOD_ATT:N-N (RNA,GENEXXX) Parse 12 +-----------COMP_by:V_PASS-N-----------+ +--------------SUBJ:V_PASS-N--------------+ +-------MOD_ATT:N-N-------+ +----------COMP_of:N-N---------+ | | +-MOD_ATT:N-N-+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+ | | | | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (polymerases,GENEXXX) COMP_of:N-N (expression,SPXXX) Parse 13 +--------------SUBJ:V_PASS-N--------------+-----------COMP_by:V_PASS-N-----------+ +-----MOD_ATT:N-N----+----------COMP_of:N-N---------+ | +---MOD_ATT:N-N---+ | | +MOD_ATT+--COMP_during:N-N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (expression,SPXXX) MOD_ATT:N-N (RNA,GENEXXX) Parse 14 +-------------COMP_by:ADJ-N------------+ +--------------MOD_PRED:N-ADJ-------------+ +-------MOD_ATT:N-N-------+ +-----MOD_ATT:N-N----+----------COMP_of:N-N---------+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+--COMP_during:N-N-+ | | | | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (polymerases,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) COMP_of:N-N (expression,SPXXX) Parse 15 +-----------COMP_by:V_PASS-N-----------+ +--------------SUBJ:V_PASS-N--------------+ +-------MOD_ATT:N-N-------+ +-----MOD_ATT:N-N----+----------COMP_of:N-N---------+ | | +-MOD_ATT:N-N-+ | +MOD_ATT+--COMP_during:N-N-+ | | | | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (polymerases,GENEXXX) COMP_of:N-N (expression,SPXXX) Parse 16 +-------------COMP_by:ADJ-N------------+ +--------------MOD_PRED:N-ADJ-------------+ +-------MOD_ATT:N-N-------+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (gene,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_ATT:N-N (RNA,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) Parse 17 +-----------COMP_by:V_PASS-N-----------+ +--------------SUBJ:V_PASS-N--------------+ +-------MOD_ATT:N-N-------+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (polymerases,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_ATT:N-N (RNA,GENEXXX) Parse 18 +-------------COMP_by:ADJ-N------------+ +-----MOD_ATT:N-N----+--------------MOD_PRED:N-ADJ-------------+ +-------MOD_ATT:N-N-------+ | +MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (polymerases,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_ATT:N-N (RNA,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) Parse 19 +-----------COMP_by:V_PASS-N-----------+ +-----MOD_ATT:N-N----+--------------SUBJ:V_PASS-N--------------+ +-------MOD_ATT:N-N-------+ | +MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (polymerases,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_ATT:N-N (RNA,GENEXXX) Parse 20 +--------------MOD_PRED:N-ADJ-------------+-------------COMP_by:ADJ-N------------+ +----------COMP_of:N-N---------+ | +-------MOD_ATT:N-N-------+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (gene,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (RNA,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) COMP_of:N-N (expression,SPXXX) Parse 21 +--------------SUBJ:V_PASS-N--------------+-----------COMP_by:V_PASS-N-----------+ +----------COMP_of:N-N---------+ | +-------MOD_ATT:N-N-------+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (expression,SPXXX) Parse 22 +--------------MOD_PRED:N-ADJ-------------+-------------COMP_by:ADJ-N------------+ +-----MOD_ATT:N-N----+----------COMP_of:N-N---------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+--COMP_during:N-N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (RNA,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) COMP_of:N-N (expression,SPXXX) Parse 23 +--------------SUBJ:V_PASS-N--------------+-----------COMP_by:V_PASS-N-----------+ +-----MOD_ATT:N-N----+----------COMP_of:N-N---------+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT+--COMP_during:N-N-+ | | | +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:V_PASS-N (controlled,polymerases) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (polymerases,GENEXXX) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (expression,SPXXX) Parse 24 +--------------MOD_PRED:N-ADJ-------------+-------------COMP_by:ADJ-N------------+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ +COMP_by:ADJ-+ +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . COMP_by:ADJ-N (controlled,GENEXXX) MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_PRED:N-ADJ (expression,controlled) Parse 25 +--------------SUBJ:V_PASS-N--------------+-----------COMP_by:V_PASS-N-----------+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ +COMP_by:V_PA+ +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_of:N-N (sporulation,SPXXX) COMP_by:V_PASS-N (controlled,polymerases) Parse 26 +-------------COMP_by:ADJ-N------------+ +--------------MOD_PRED:N-ADJ-------------+ +-MOD_ATT:N-N-+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ +COMP_by:ADJ-+ | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . COMP_by:ADJ-N (controlled,GENEXXX) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:ADJ-N (controlled,polymerases) COMP_of:N-N (sporulation,SPXXX) MOD_PRED:N-ADJ (expression,controlled) Parse 27 +-----MOD_ATT:N-N----+--------------MOD_PRED:N-ADJ-------------+-------------COMP_by:ADJ-N------------+ | +MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ +COMP_by:ADJ-+ +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . COMP_by:ADJ-N (controlled,GENEXXX) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (sporulation,SPXXX) MOD_PRED:N-ADJ (expression,controlled) Parse 28 +-----------COMP_by:V_PASS-N-----------+ +--------------SUBJ:V_PASS-N--------------+ +-MOD_ATT:N-N-+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ +COMP_by:V_PA+ | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) SUBJ:V_PASS-N (controlled,expression) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_of:N-N (sporulation,SPXXX) COMP_by:V_PASS-N (controlled,polymerases) Parse 29 +-----MOD_ATT:N-N----+--------------SUBJ:V_PASS-N--------------+-----------COMP_by:V_PASS-N-----------+ | +MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ +COMP_by:V_PA+ +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_of:N-N (sporulation,SPXXX) COMP_by:V_PASS-N (controlled,polymerases) Parse 30 +-------------COMP_by:ADJ-N------------+ +-----MOD_ATT:N-N----+--------------MOD_PRED:N-ADJ-------------+ +-MOD_ATT:N-N-+ | +MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ +COMP_by:ADJ-+ | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . COMP_by:ADJ-N (controlled,GENEXXX) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) COMP_of:N-N (sporulation,SPXXX) MOD_PRED:N-ADJ (expression,controlled) Parse 31 +--------------MOD_PRED:N-ADJ-------------+ +----------COMP_of:N-N---------+ +-------------COMP_by:ADJ-N------------+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+ | +COMP_by:ADJ-+ +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . COMP_by:ADJ-N (controlled,GENEXXX) MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (RNA,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) COMP_of:N-N (expression,SPXXX) Parse 32 +-----------COMP_by:V_PASS-N-----------+ +-----MOD_ATT:N-N----+--------------SUBJ:V_PASS-N--------------+ +-MOD_ATT:N-N-+ | +MOD_ATT+--COMP_during:N-N-+COMP_of:N-N+ +COMP_by:V_PA+ | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) SUBJ:V_PASS-N (controlled,expression) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_of:N-N (sporulation,SPXXX) COMP_by:V_PASS-N (controlled,polymerases) Parse 33 +--------------SUBJ:V_PASS-N--------------+ +----------COMP_of:N-N---------+ +-----------COMP_by:V_PASS-N-----------+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+ | +COMP_by:V_PA+ +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V_PASS-N (controlled,polymerases) COMP_of:N-N (expression,SPXXX) Parse 34 +--------------MOD_PRED:N-ADJ-------------+-------------COMP_by:ADJ-N------------+ +----------COMP_of:N-N---------+ | +-MOD_ATT:N-N-+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+ | +COMP_by:ADJ-+ | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . COMP_by:ADJ-N (controlled,GENEXXX) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:ADJ-N (controlled,polymerases) MOD_PRED:N-ADJ (expression,controlled) COMP_of:N-N (expression,SPXXX) Parse 35 +--------------MOD_PRED:N-ADJ-------------+ +-----MOD_ATT:N-N----+----------COMP_of:N-N---------+ +-------------COMP_by:ADJ-N------------+ | +MOD_ATT+--COMP_during:N-N-+ | +COMP_by:ADJ-+ +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . COMP_by:ADJ-N (controlled,GENEXXX) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_ATT:N-N (RNA,GENEXXX) MOD_PRED:N-ADJ (expression,controlled) COMP_of:N-N (expression,SPXXX) Parse 36 +--------------SUBJ:V_PASS-N--------------+-----------COMP_by:V_PASS-N-----------+ +----------COMP_of:N-N---------+ | +-MOD_ATT:N-N-+ +-MOD_ATT:N-N+MOD_ATT+--COMP_during:N-N-+ | +COMP_by:V_PA+ | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) MOD_ATT:N-N (gene,Mother-cell-specific) SUBJ:V_PASS-N (controlled,expression) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V_PASS-N (controlled,polymerases) COMP_of:N-N (expression,SPXXX) Parse 37 +--------------SUBJ:V_PASS-N--------------+ +-----MOD_ATT:N-N----+----------COMP_of:N-N---------+ +-----------COMP_by:V_PASS-N-----------+ | +MOD_ATT+--COMP_during:N-N-+ | +COMP_by:V_PA+ +MOD_A+MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) SUBJ:V_PASS-N (controlled,expression) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V_PASS-N (controlled,polymerases) COMP_of:N-N (expression,SPXXX) Parse 38 +--------------MOD_PRED:N-ADJ-------------+-------------COMP_by:ADJ-N------------+ +-----MOD_ATT:N-N----+----------COMP_of:N-N---------+ | +-MOD_ATT:N-N-+ | +MOD_ATT+--COMP_during:N-N-+ | +COMP_by:ADJ-+ | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . COMP_by:ADJ-N (controlled,GENEXXX) MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) COMP_by:ADJ-N (controlled,polymerases) MOD_PRED:N-ADJ (expression,controlled) COMP_of:N-N (expression,SPXXX) Parse 39 +--------------SUBJ:V_PASS-N--------------+-----------COMP_by:V_PASS-N-----------+ +-----MOD_ATT:N-N----+----------COMP_of:N-N---------+ | +-MOD_ATT:N-N-+ | +MOD_ATT+--COMP_during:N-N-+ | +COMP_by:V_PA+ | +MOD_ATT+ | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . MOD_ATT:N-N (polymerases,RNA) MOD_ATT:N-N (expression,Mother-cell-specific) MOD_ATT:N-N (polymerases,GENEXXX) COMP_during:N-N (expression,sporulation) MOD_ATT:N-N (expression,gene) SUBJ:V_PASS-N (controlled,expression) COMP_by:V_PASS-N (controlled,GENEXXX) COMP_by:V_PASS-N (controlled,polymerases) COMP_of:N-N (expression,SPXXX) Parse 40 +---------------------SUBJ:V-N--------------------+ +------------------OBJ:V-N-----------------+ +----------------OBJ:V-N---------------+ | +-------------SUBJ:V-N-------------+ +-------COMP_by:V-N------+ | +-MOD_ATT:N-N+ +--COMP_during:N-N-+COMP_of:N-N+ | +-COMP_by:V-N+ | +MOD_ATT+ | | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . OBJ:V-N (controlled,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) SUBJ:V-N (is,expression) SUBJ:V-N (controlled,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:V-N (controlled,GENEXXX) COMP_by:V-N (controlled,GENEXXX) COMP_of:N-N (sporulation,SPXXX) OBJ:V-N (is,gene) Parse 41 +---------------------SUBJ:V-N--------------------+ +------------------OBJ:V-N-----------------+ | | +-------------SUBJ:V-N-------------+ +----------------OBJ:V-N---------------+ | +----------COMP_of:N-N---------+ | +-------COMP_by:V-N------+ | +-MOD_ATT:N-N+ +--COMP_during:N-N-+ | | +-COMP_by:V-N+ | +MOD_ATT+ | | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . OBJ:V-N (controlled,polymerases) MOD_ATT:N-N (polymerases,RNA) COMP_during:N-N (expression,sporulation) SUBJ:V-N (is,expression) SUBJ:V-N (controlled,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:V-N (controlled,GENEXXX) COMP_by:V-N (controlled,GENEXXX) OBJ:V-N (is,gene) COMP_of:N-N (expression,SPXXX) Parse 42 +---------------------SUBJ:V-N--------------------+----------------OBJ:V-N---------------+ +------------------OBJ:V-N-----------------+ +----------COMP_by:V-N---------+ | | +-------------SUBJ:V-N-------------+ | +---MOD_ATT:N-N---+ | +-MOD_ATT:N-N+ +--COMP_during:N-N-+COMP_of:N-N+ | | | +MOD_A+ | | | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . COMP_during:N-N (expression,sporulation) SUBJ:V-N (is,expression) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (controlled,polymerases) SUBJ:V-N (controlled,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:V-N (controlled,RNA) MOD_ATT:N-N (RNA,GENEXXX) COMP_of:N-N (sporulation,SPXXX) OBJ:V-N (is,gene) Parse 43 +---------------------SUBJ:V-N--------------------+ +------------------OBJ:V-N-----------------+ +----------------OBJ:V-N---------------+ | +-------------SUBJ:V-N-------------+ +----------COMP_by:V-N---------+ | | +----------COMP_of:N-N---------+ | | +---MOD_ATT:N-N---+ | +-MOD_ATT:N-N+ +--COMP_during:N-N-+ | | | | +MOD_A+ | | | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . COMP_during:N-N (expression,sporulation) SUBJ:V-N (is,expression) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (controlled,polymerases) SUBJ:V-N (controlled,gene) MOD_ATT:N-N (gene,Mother-cell-specific) COMP_by:V-N (controlled,RNA) MOD_ATT:N-N (RNA,GENEXXX) OBJ:V-N (is,gene) COMP_of:N-N (expression,SPXXX) Parse 44 +---------------------SUBJ:V-N--------------------+ +------------------OBJ:V-N-----------------+ +----------------OBJ:V-N---------------+ | +-------------SUBJ:V-N-------------+ +----------COMP_by:V-N---------+ | +-MOD_ATT:N-N+ +--COMP_during:N-N-+COMP_of:N-N+ | +-COMP_by:V-N+ +MOD_A+ | | | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . OBJ:V-N (controlled,polymerases) COMP_during:N-N (expression,sporulation) SUBJ:V-N (is,expression) SUBJ:V-N (controlled,gene) MOD_ATT:N-N (gene,Mother-cell-specific) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:V-N (controlled,GENEXXX) COMP_by:V-N (controlled,RNA) COMP_of:N-N (sporulation,SPXXX) OBJ:V-N (is,gene) Parse 45 +---------------------SUBJ:V-N--------------------+ +------------------OBJ:V-N-----------------+ | | +-------------SUBJ:V-N-------------+ +----------------OBJ:V-N---------------+ | +----------COMP_of:N-N---------+ | +----------COMP_by:V-N---------+ | +-MOD_ATT:N-N+ +--COMP_during:N-N-+ | | +-COMP_by:V-N+ +MOD_A+ | | | | | | | | | | | | Mother-cell-specific gene expression during sporulation of SPXXX is controlled by GENEXXX and GENEXXX RNA polymerases . OBJ:V-N (controlled,polymerases) COMP_during:N-N (expression,sporulation) SUBJ:V-N (is,expression) SUBJ:V-N (controlled,gene) MOD_ATT:N-N (gene,Mother-cell-specific) MOD_ATT:N-N (RNA,GENEXXX) COMP_by:V-N (controlled,GENEXXX) COMP_by:V-N (controlled,RNA) OBJ:V-N (is,gene) COMP_of:N-N (expression,SPXXX) PMID: 7966271-2 Sentence 21 GENEXXX is required for the expression of genes during stage III ( engulfment of the forespore ) , while GENEXXX is required for the expression of genes during stage IV ( formation of the spore cortex ) and stage V ( formation of the spore coat ) . Parse 0 +--------------------APPOS--------------------+ +-----------COMP_of:N-N-----------+ | +------------------COMP_during:V_PASS-N-----------------+-----COMP_of:N-N----+ | +----COMP_of:N-N----+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +-MOD_ATT:N-N+ +MOD_A+ | | +MOD_+ | | | | | | | | | | | | | | | | GENEXXX is required for the expression of genes during stage III ( engulfment of the forespore ) , while GENEXXX is required for the expression of genes during stage IV ( formation of the spore cortex ) and stage V ( formation of the spore coat ) . APPOS (formation,formation) COMP_of:N-N (formation,coat) COMP_for:V_PASS-N (required,expression) SUBJ:V_PASS-N (required,GENEXXX) COMP_of:N-N (formation,cortex) COMP_of:N-N (expression,genes) MOD_ATT:N-N (coat,spore) SUBJ:V_PASS-N (required,GENEXXX) MOD_ATT:N-N (cortex,spore) MOD_ATT:N-N (formation,stage) COMP_during:V_PASS-N (required,formation) COMP_for:V_PASS-N (required,expression) COMP_of:N-N (formation,stage) COMP_of:N-N (expression,genes) Parse 1 +-----------COMP_of:N-N-----------+ +------------------COMP_during:V_PASS-N-----------------+-----COMP_of:N-N----+ | +----COMP_of:N-N----+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +-MOD_ATT:N-N+ +MOD_A+ +---APPOS---+ +MOD_+ | | | | | | | | | | | | | | | | GENEXXX is required for the expression of genes during stage III ( engulfment of the forespore ) , while GENEXXX is required for the expression of genes during stage IV ( formation of the spore cortex ) and stage V ( formation of the spore coat ) . COMP_of:N-N (formation,coat) COMP_for:V_PASS-N (required,expression) SUBJ:V_PASS-N (required,GENEXXX) COMP_of:N-N (formation,cortex) COMP_of:N-N (expression,genes) MOD_ATT:N-N (coat,spore) SUBJ:V_PASS-N (required,GENEXXX) MOD_ATT:N-N (cortex,spore) MOD_ATT:N-N (formation,stage) COMP_during:V_PASS-N (required,formation) COMP_for:V_PASS-N (required,expression) COMP_of:N-N (formation,stage) APPOS (stage,formation) COMP_of:N-N (expression,genes) Parse 2 +--------------------APPOS--------------------+ +-----------COMP_of:N-N-----------+ | +-----COMP_during:N-N-----+-----COMP_of:N-N----+ | +----COMP_of:N-N----+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +-MOD_ATT:N-N+ +MOD_A+ | | +MOD_+ | | | | | | | | | | | | | | | | GENEXXX is required for the expression of genes during stage III ( engulfment of the forespore ) , while GENEXXX is required for the expression of genes during stage IV ( formation of the spore cortex ) and stage V ( formation of the spore coat ) . APPOS (formation,formation) COMP_of:N-N (formation,coat) COMP_for:V_PASS-N (required,expression) SUBJ:V_PASS-N (required,GENEXXX) COMP_of:N-N (formation,cortex) MOD_ATT:N-N (coat,spore) COMP_of:N-N (expression,genes) COMP_during:N-N (genes,formation) SUBJ:V_PASS-N (required,GENEXXX) MOD_ATT:N-N (cortex,spore) MOD_ATT:N-N (formation,stage) COMP_for:V_PASS-N (required,expression) COMP_of:N-N (formation,stage) COMP_of:N-N (expression,genes) Parse 3 +--------------------APPOS--------------------+ +-----------COMP_of:N-N-----------+ | +-----------COMP_during:N-N-----------+-----COMP_of:N-N----+ | +----COMP_of:N-N----+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +-MOD_ATT:N-N+ +MOD_A+ | | +MOD_+ | | | | | | | | | | | | | | | | GENEXXX is required for the expression of genes during stage III ( engulfment of the forespore ) , while GENEXXX is required for the expression of genes during stage IV ( formation of the spore cortex ) and stage V ( formation of the spore coat ) . APPOS (formation,formation) COMP_of:N-N (formation,coat) COMP_for:V_PASS-N (required,expression) SUBJ:V_PASS-N (required,GENEXXX) COMP_of:N-N (formation,cortex) MOD_ATT:N-N (coat,spore) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (required,GENEXXX) MOD_ATT:N-N (cortex,spore) MOD_ATT:N-N (formation,stage) COMP_during:N-N (expression,formation) COMP_for:V_PASS-N (required,expression) COMP_of:N-N (formation,stage) COMP_of:N-N (expression,genes) Parse 4 +-----------COMP_of:N-N-----------+ +-----COMP_during:N-N-----+-----COMP_of:N-N----+ | +----COMP_of:N-N----+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +-MOD_ATT:N-N+ +MOD_A+ +---APPOS---+ +MOD_+ | | | | | | | | | | | | | | | | GENEXXX is required for the expression of genes during stage III ( engulfment of the forespore ) , while GENEXXX is required for the expression of genes during stage IV ( formation of the spore cortex ) and stage V ( formation of the spore coat ) . COMP_of:N-N (formation,coat) COMP_for:V_PASS-N (required,expression) SUBJ:V_PASS-N (required,GENEXXX) COMP_of:N-N (formation,cortex) MOD_ATT:N-N (coat,spore) COMP_of:N-N (expression,genes) COMP_during:N-N (genes,formation) SUBJ:V_PASS-N (required,GENEXXX) MOD_ATT:N-N (cortex,spore) MOD_ATT:N-N (formation,stage) COMP_for:V_PASS-N (required,expression) COMP_of:N-N (formation,stage) APPOS (stage,formation) COMP_of:N-N (expression,genes) Parse 5 +-----------COMP_of:N-N-----------+ +-----------COMP_during:N-N-----------+-----COMP_of:N-N----+ | +----COMP_of:N-N----+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +-MOD_ATT:N-N+ +MOD_A+ +---APPOS---+ +MOD_+ | | | | | | | | | | | | | | | | GENEXXX is required for the expression of genes during stage III ( engulfment of the forespore ) , while GENEXXX is required for the expression of genes during stage IV ( formation of the spore cortex ) and stage V ( formation of the spore coat ) . COMP_of:N-N (formation,coat) COMP_for:V_PASS-N (required,expression) SUBJ:V_PASS-N (required,GENEXXX) COMP_of:N-N (formation,cortex) MOD_ATT:N-N (coat,spore) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (required,GENEXXX) MOD_ATT:N-N (cortex,spore) MOD_ATT:N-N (formation,stage) COMP_during:N-N (expression,formation) COMP_for:V_PASS-N (required,expression) COMP_of:N-N (formation,stage) APPOS (stage,formation) COMP_of:N-N (expression,genes) Parse 6 +------------------------COMP_of:N-N------------------------+ +------------------COMP_of:N-N-----------------+ | +-----COMP_during:N-N-----+ | | +----COMP_of:N-N----+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +-MOD_ATT:N-N+ +MOD_A+ +---APPOS---+ +MOD_+ | | | | | | | | | | | | | | | | GENEXXX is required for the expression of genes during stage III ( engulfment of the forespore ) , while GENEXXX is required for the expression of genes during stage IV ( formation of the spore cortex ) and stage V ( formation of the spore coat ) . COMP_of:N-N (genes,cortex) COMP_of:N-N (genes,stage) COMP_of:N-N (formation,coat) COMP_for:V_PASS-N (required,expression) SUBJ:V_PASS-N (required,GENEXXX) MOD_ATT:N-N (coat,spore) COMP_of:N-N (expression,genes) COMP_during:N-N (genes,formation) SUBJ:V_PASS-N (required,GENEXXX) MOD_ATT:N-N (cortex,spore) COMP_for:V_PASS-N (required,expression) APPOS (stage,formation) COMP_of:N-N (expression,genes) MOD_ATT:N-N (formation,stage) Parse 7 +------------------------------COMP_of:N-N------------------------------+ +------------------------COMP_of:N-N-----------------------+ | | +-----COMP_during:N-N-----+ | | +----COMP_of:N-N----+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +-MOD_ATT:N-N+ +MOD_A+ +---APPOS---+ +MOD_+ | | | | | | | | | | | | | | | | GENEXXX is required for the expression of genes during stage III ( engulfment of the forespore ) , while GENEXXX is required for the expression of genes during stage IV ( formation of the spore cortex ) and stage V ( formation of the spore coat ) . COMP_during:N-N (genes,formation) COMP_of:N-N (formation,coat) COMP_for:V_PASS-N (required,expression) COMP_of:N-N (expression,cortex) SUBJ:V_PASS-N (required,GENEXXX) COMP_of:N-N (expression,stage) MOD_ATT:N-N (coat,spore) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (required,GENEXXX) MOD_ATT:N-N (cortex,spore) COMP_for:V_PASS-N (required,expression) APPOS (stage,formation) COMP_of:N-N (expression,genes) MOD_ATT:N-N (formation,stage) Parse 8 +------------------------------COMP_of:N-N------------------------------+ +------------------------COMP_of:N-N-----------------------+ | +-----------COMP_during:N-N-----------+ | | +----COMP_of:N-N----+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +SUBJ:V_PAS+COMP_for:V_PASS-N+COMP_of:N-N+ +-MOD_ATT:N-N+ +MOD_A+ +---APPOS---+ +MOD_+ | | | | | | | | | | | | | | | | GENEXXX is required for the expression of genes during stage III ( engulfment of the forespore ) , while GENEXXX is required for the expression of genes during stage IV ( formation of the spore cortex ) and stage V ( formation of the spore coat ) . COMP_of:N-N (formation,coat) COMP_for:V_PASS-N (required,expression) SUBJ:V_PASS-N (required,GENEXXX) COMP_of:N-N (expression,cortex) COMP_of:N-N (expression,stage) MOD_ATT:N-N (coat,spore) COMP_of:N-N (expression,genes) SUBJ:V_PASS-N (required,GENEXXX) MOD_ATT:N-N (cortex,spore) COMP_during:N-N (expression,formation) COMP_for:V_PASS-N (required,expression) APPOS (stage,formation) COMP_of:N-N (expression,genes) MOD_ATT:N-N (formation,stage) PMID: 8002610-1 Sentence 22 The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . Parse 0 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) MOD_POST:N-ADJ (activity,response) Parse 1 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) MOD_ATT:N-ADJ (other,three) Parse 2 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 3 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) Parse 4 +---------------------------------COMP_to:V-V--------------------------------+---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (control,stress) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) MOD_ATT:N-ADJ (other,three) Parse 5 +---------------------COMP_to:V-N--------------------+ +---------------------------------COMP_to:V-V--------------------------------+--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) COMP_in:V-N (control,response) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (control,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) MOD_ATT:N-ADJ (other,three) Parse 6 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 7 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) MOD_ATT:N-ADJ (other,three) Parse 8 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-N (lies,activity) SUBJ:V_PASS-N (shown,products) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) MOD_POST:N-ADJ (activity,response) Parse 9 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) COMP_in:V-N (control,response) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (lies,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) Parse 10 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-N (lies,activity) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) Parse 11 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | | +-----COMP_to:V_PASS-N----+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_in:V-N (lies,response) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) Parse 12 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +-----------------------------------------COMP_to:V-N----------------------------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-N (lies,activity) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (lies,stress) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) Parse 13 +-----------COMP_in:V_PASS-N----------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ | +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) Parse 14 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 15 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 16 +-----------COMP_in:V_PASS-N----------+ +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) Parse 17 +---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-N (control,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 18 +-----------------------COMP_to:V_PASS-N-----------------------+ | +--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:V-N (control,response) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 19 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-----------------------COMP_to:V_PASS-N-----------------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_POST:N-ADJ (activity,response) Parse 20 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) Parse 21 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) COMP_to:N-N (activity,stress) MOD_POST:N-ADJ (activity,response) Parse 22 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) Parse 23 +---------------------------------COMP_to:V-V--------------------------------+---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (control,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 24 +-----------------------------------------COMP_to:V-N----------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (lies,activity) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) MOD_ATT:N-ADJ (other,three) Parse 25 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_in:V-N (lies,response) MOD_ATT:N-N (activity,control) MOD_ATT:N-ADJ (other,three) Parse 26 +---------------------------------COMP_to:V-V--------------------------------+---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (control,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) MOD_ATT:N-ADJ (other,three) Parse 27 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 28 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:V-N (control,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 29 +---------------------------------COMP_to:V-V--------------------------------+---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (control,stress) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) MOD_ATT:N-ADJ (other,three) Parse 30 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 31 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 32 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) MOD_ATT:N-ADJ (other,three) Parse 33 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------------------COMP_to:N-N----------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:N-N (operon,activity) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) COMP_to:V-N (lies,stress) Parse 34 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 35 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------------------COMP_to:N-N----------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:N-N (operon,activity) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_to:V-N (lies,stress) MOD_POST:N-ADJ (activity,response) Parse 36 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) MOD_ATT:N-ADJ (other,three) Parse 37 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V-N (lies,activity) SUBJ:V_PASS-N (shown,products) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) Parse 38 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) Parse 39 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (lies,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) Parse 40 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-N (lies,activity) SUBJ:V_PASS-N (shown,products) COMP_with:N-N (operon,genes) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) Parse 41 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (lies,activity) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) Parse 42 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) COMP_in:V-N (control,response) SUBJ:V_PASS-N (shown,products) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) Parse 43 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 44 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | | +-----------------------------------COMP_to:N-N----------------------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:N-N (operon,activity) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_in:V-N (lies,response) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) Parse 45 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---------------------------------COMP_to:V-V--------------------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (lies,stress) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 46 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) Parse 47 +---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V-N (control,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 48 +-----COMP_to:V_PASS-N----+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) COMP_to:N-N (activity,stress) Parse 49 +-----COMP_to:V_PASS-N----+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) Parse 50 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-----------------------COMP_to:V_PASS-N-----------------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 51 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 52 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-COMP_to:V_PASS-N+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_to:N-N (activity,stress) MOD_POST:N-ADJ (activity,response) Parse 53 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 54 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,stress) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) MOD_POST:N-ADJ (activity,response) Parse 55 +-----------------------COMP_to:N-N----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (genes,activity) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) Parse 56 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) MOD_POST:N-ADJ (activity,response) Parse 57 +-----------------------------------------COMP_to:V-N----------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V-N (lies,activity) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) MOD_ATT:N-ADJ (other,three) Parse 58 +---------------------------------COMP_to:V-V--------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) COMP_to:N-N (activity,stress) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 59 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----------COMP_in:V_PASS-N----------+ | +-----COMP_to:V_PASS-N----+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) Parse 60 +---------------------------------COMP_to:V-V--------------------------------+---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (control,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) MOD_ATT:N-ADJ (other,three) Parse 61 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) Parse 62 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------------------SUBJ:V_PASS-N--------------------+-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 63 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) Parse 64 +---------------------------------COMP_to:V-V--------------------------------+--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) COMP_in:V-N (control,response) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) MOD_ATT:N-ADJ (other,three) Parse 65 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 66 +-----------------------------COMP_in:N-N----------------------------+ +-----------------------COMP_to:N-N----------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (genes,activity) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (genes,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) Parse 67 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------------------SUBJ:V_PASS-N--------------------+-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 68 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----------COMP_in:V_PASS-N----------+ | +---------------------SUBJ:V_PASS-N--------------------+-----COMP_to:V_PASS-N----+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 69 +---------------------------------COMP_to:V-V--------------------------------+---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) SUBJ:V_PASS-N (shown,products) COMP_to:V-N (control,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) OBJ:V-N (with,genes) MOD_POST:N-ADJ (activity,response) Parse 70 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 71 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-COMP_to:V_PASS-N+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (other,three) Parse 72 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) OBJ:V-N (with,genes) Parse 73 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 74 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 75 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 76 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------------COMP_in:N-N----------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:N-N (genes,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 77 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 78 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------------------COMP_to:N-N----------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:N-N (operon,activity) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_to:V-N (lies,stress) Parse 79 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 80 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 81 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 82 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 83 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+-----------------------------COMP_in:N-N----------------------------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (genes,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 84 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 85 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) Parse 86 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------COMP_in:V_PASS-N----------+ | | +---------------------SUBJ:V_PASS-N--------------------+-----COMP_to:V_PASS-N----+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 87 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) Parse 88 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,activity) COMP_to:V-N (lies,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) Parse 89 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-N (lies,activity) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) Parse 90 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) COMP_to:V-N (lies,activity) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) Parse 91 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) COMP_to:V-N (lies,stress) Parse 92 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V-N (been,products) Parse 93 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | | +-----------------------COMP_to:N-N----------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:N-N (genes,activity) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) Parse 94 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V-N (lies,activity) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) Parse 95 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) COMP_to:N-N (activity,stress) Parse 96 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 97 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) COMP_to:N-N (activity,stress) MOD_POST:N-ADJ (activity,response) Parse 98 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-----------COMP_in:V_PASS-N----------+-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 99 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) COMP_to:N-N (activity,stress) MOD_POST:N-ADJ (activity,response) Parse 100 +-----------COMP_in:V_PASS-N----------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ | +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) Parse 101 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-----------------------COMP_to:V_PASS-N-----------------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 102 +---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_to:V-N (control,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 103 +-----------------------------COMP_in:N-N----------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:N-N (genes,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 104 +-----------COMP_in:V_PASS-N----------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-COMP_to:V_PASS-N+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) Parse 105 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) MOD_POST:N-ADJ (activity,response) Parse 106 +-----------COMP_in:V_PASS-N----------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 107 +-----------------------------------COMP_to:N-N----------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (operon,activity) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (other,three) Parse 108 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-----------------------COMP_to:V_PASS-N-----------------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) OBJ:V-N (control,GENEXXX) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) Parse 109 +---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (control,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) Parse 110 +---------------------SUBJ:V_PASS-N--------------------+ +---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_to:V-N (control,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 111 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +-----------------------COMP_to:V_PASS-N-----------------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_POST:N-ADJ (activity,response) Parse 112 +---------------------SUBJ:V_PASS-N--------------------+-----COMP_to:V_PASS-N----+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) MOD_POST:N-ADJ (activity,response) Parse 113 +---------------------COMP_to:V-N--------------------+ +---------------------SUBJ:V_PASS-N--------------------+ +--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:V-N (control,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (control,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 114 +---------------------SUBJ:V_PASS-N--------------------+-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 115 +-----------------------------COMP_in:N-N----------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ | | +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,three) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:N-N (genes,response) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) OBJ:V-N (with,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) Parse 116 +---------------------------------COMP_to:V-V--------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) COMP_to:N-N (activity,stress) MOD_ATT:N-ADJ (other,three) Parse 117 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +-----------COMP_in:V_PASS-N----------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) Parse 118 +-----------------------------COMP_in:N-N----------------------------+ +-----------------------COMP_to:N-N----------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (genes,activity) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (genes,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) Parse 119 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------------------SUBJ:V_PASS-N--------------------+-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 120 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------------------SUBJ:V_PASS-N--------------------+ +--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:V-N (control,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 121 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (shown,activity) Parse 122 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (shown,activity) Parse 123 +---------------------------------COMP_to:V-V--------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) MOD_ATT:N-ADJ (other,three) Parse 124 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-----------------------COMP_to:V_PASS-N-----------------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) OBJ:V-N (control,GENEXXX) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 125 +-----------------------------------COMP_to:N-N----------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (operon,activity) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) COMP_to:N-N (activity,stress) MOD_ATT:N-ADJ (other,three) Parse 126 +-----------COMP_in:V_PASS-N----------+ +---------------------SUBJ:V_PASS-N--------------------+-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 127 +-----------------------COMP_to:V_PASS-N-----------------------+ | +--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:V-N (control,response) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) Parse 128 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) MOD_ATT:N-ADJ (other,three) Parse 129 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----------COMP_in:V_PASS-N----------+ | +-----COMP_to:V_PASS-N----+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) OBJ:V-N (with,genes) SUBJ:V-N (been,products) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) Parse 130 +---------------------------------COMP_to:V-V--------------------------------+---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V-N (control,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 131 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 132 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------------------SUBJ:V_PASS-N--------------------+-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 133 +-----------------------------------------COMP_to:V-N----------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,activity) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 134 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) MOD_ATT:N-ADJ (other,three) Parse 135 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 136 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (with,genes) Parse 137 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 138 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-----------COMP_in:V_PASS-N----------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 139 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:V-N (control,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 140 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 141 +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,activity) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 142 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 143 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ +MOD_ATT+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (with,genes) MOD_POST:N-ADJ (activity,response) Parse 144 +---------------------------------COMP_to:V-V--------------------------------+---------------------COMP_to:V-N--------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ +--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_in:V-N (control,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (control,stress) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 145 +---------------------------------COMP_to:V-V--------------------------------+---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) COMP_to:V-N (control,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 146 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 147 +---------------------COMP_to:V-N--------------------+ +---------------------------------COMP_to:V-V--------------------------------+--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) COMP_in:V-N (control,response) COMP_to:V-N (control,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 148 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 149 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ +--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:V-N (control,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 150 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 151 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (with,genes) Parse 152 +---------------------------------COMP_to:V-V--------------------------------+---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) COMP_to:V-N (control,stress) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 153 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+-----------------------------COMP_in:N-N----------------------------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (genes,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 154 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 155 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 156 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V-N (been,products) COMP_in:V-N (lies,response) Parse 157 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) SUBJ:V-N (been,products) Parse 158 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------------COMP_in:N-N----------------------------+ | | +-----------------------COMP_to:N-N----------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ | +--MOD_ATT:N-N--+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (genes,response) COMP_to:N-N (genes,activity) SUBJ:V_PASS-N (shown,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) OBJ:V-N (with,genes) Parse 159 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,activity) COMP_with:N-N (operon,genes) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) Parse 160 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) Parse 161 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) SUBJ:V-N (been,products) Parse 162 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) Parse 163 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,activity) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) Parse 164 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) COMP_to:V-N (lies,activity) COMP_to:V-N (lies,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) Parse 165 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) COMP_to:V-N (lies,stress) Parse 166 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) Parse 167 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 168 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ +--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_in:V-N (control,response) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) Parse 169 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) OBJ:V-N (with,genes) Parse 170 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 171 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------COMP_to:N-N----------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:N-N (genes,activity) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 172 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---------------------------------COMP_to:V-V--------------------------------+ | | | +---------------------SUBJ:V_PASS-N--------------------+ | | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_with:N-N (operon,genes) Parse 173 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------------------COMP_to:N-N----------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:N-N (operon,activity) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) Parse 174 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ | | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V-N (lies,activity) COMP_to:V-N (lies,stress) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) Parse 175 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_to:N-N (activity,stress) Parse 176 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-----------COMP_in:V_PASS-N----------+-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 177 +-----COMP_to:V_PASS-N----+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) Parse 178 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) MOD_POST:N-ADJ (activity,response) Parse 179 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) COMP_to:N-N (activity,stress) Parse 180 +-----COMP_to:V_PASS-N----+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) COMP_with:N-N (operon,genes) Parse 181 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V_PASS-N (shown,products) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:N-N (activity,stress) MOD_POST:N-ADJ (activity,response) Parse 182 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) COMP_with:N-N (operon,genes) Parse 183 +-----------COMP_in:V_PASS-N----------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +-COMP_to:V_PASS-N+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) Parse 184 +---------------------SUBJ:V_PASS-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) MOD_POST:N-ADJ (activity,response) Parse 185 +-----------------------------COMP_in:N-N----------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) COMP_in:N-N (genes,response) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 186 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-----------------------COMP_to:V_PASS-N-----------------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) OBJ:V-N (control,GENEXXX) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 187 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) Parse 188 +---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) OBJ:V-N (with,genes) COMP_to:V-N (control,stress) SUBJ:V-N (been,products) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) Parse 189 +--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:V-N (control,response) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) Parse 190 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) COMP_to:V_PASS-N (shown,stress) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 191 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 192 +---------------------SUBJ:V_PASS-N--------------------+-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 193 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+-----------------------------COMP_in:N-N----------------------------+-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) COMP_in:N-N (genes,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) Parse 194 +---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:N-N (activity,response) COMP_to:V-N (control,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (control,activity) Parse 195 +-----------------------------COMP_in:N-N----------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_in:N-N (genes,response) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) COMP_with:N-N (operon,genes) Parse 196 +-----------------------COMP_to:V_PASS-N-----------------------+ | +--------COMP_in:V-N--------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:V-N (control,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) OBJ:V-N (with,genes) SUBJ:V-N (been,products) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) Parse 197 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 198 +---------------------SUBJ:V_PASS-N--------------------+-----------COMP_in:V_PASS-N----------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 199 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----------COMP_in:V_PASS-N----------+ | +---------OBJ:V-N---------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (GENEXXX,control) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 200 +---------------------SUBJ:V_PASS-N--------------------+-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 201 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 202 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 203 +---------------------------------COMP_to:V-V--------------------------------+--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_to:V-V (lies,control) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_in:V-N (control,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 204 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-----------------------COMP_to:V_PASS-N-----------------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_POST:N-ADJ (activity,response) Parse 205 +---------------------------------COMP_to:V-V--------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 206 +---------------------------------COMP_to:V-V--------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 207 +---------------------SUBJ:V_PASS-N--------------------+-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 208 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (shown,activity) Parse 209 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_POST:N-ADJ (activity,response) Parse 210 +---------------------------------COMP_to:V-V--------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_to:V-V (lies,control) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 211 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 212 +-----------------------------------COMP_to:N-N----------------------------------+ +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (operon,activity) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 213 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 214 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------------------SUBJ:V_PASS-N--------------------+-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) MOD_ATT:N-N (activity,GENEXXX) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 215 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) Parse 216 +---------------------------------COMP_to:V-V--------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ +---------------------COMP_to:V-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (control,stress) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 217 +-----------------------------------------COMP_to:V-N----------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,activity) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) OBJ:V-N (with,genes) MOD_POST:N-ADJ (activity,response) Parse 218 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 219 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 220 +---------------------------------COMP_to:V-V--------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ +--------COMP_in:V-N--------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) COMP_in:V-N (control,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 221 +-----------------------------------------COMP_to:V-N----------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,activity) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 222 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 223 +---------------------------------COMP_to:V-V--------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) MOD_POST:N-ADJ (activity,response) Parse 224 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 225 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 226 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 227 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------COMP_to:N-N----------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:N-N (genes,activity) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 228 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) SUBJ:V-N (been,products) OBJ:V-N (with,genes) Parse 229 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------------COMP_in:N-N----------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (genes,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-ADJ (other,three) Parse 230 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 231 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) MOD_ATT:N-N (activity,GENEXXX) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 232 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------COMP_in:V_PASS-N----------+ | | +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (GENEXXX,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 233 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +---------------------------------COMP_to:V-V--------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_to:V-V (lies,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) Parse 234 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------------COMP_in:N-N----------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (genes,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 235 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------------------COMP_to:N-N----------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:N-N (operon,activity) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) Parse 236 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +-----------------------------------COMP_to:N-N----------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) APPOS (gene,GENEXXX) COMP_to:N-N (operon,activity) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) Parse 237 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) COMP_to:V-N (lies,stress) MOD_ATT:N-N (GENEXXX,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) Parse 238 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) MOD_ATT:N-N (activity,GENEXXX) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) COMP_to:V-N (lies,stress) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) Parse 239 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 240 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 241 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) COMP_to:N-N (activity,stress) Parse 242 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V_PASS-N--+ +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) Parse 243 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) COMP_to:V_PASS-V (shown,control) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) COMP_to:N-N (activity,stress) Parse 244 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +-COMP_to:V_PASS-N+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V_PASS-N (shown,products) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:N-N (activity,stress) Parse 245 +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) MOD_POST:N-ADJ (activity,response) Parse 246 +---------------------SUBJ:V_PASS-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 247 +-----------COMP_in:V_PASS-N----------+ +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_in:V_PASS-N (shown,response) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 248 +---------------------SUBJ:V_PASS-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) Parse 249 +---------OBJ:V-N---------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) OBJ:V-N (shown,activity) Parse 250 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 251 +-----------------------COMP_to:N-N----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (genes,activity) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) COMP_with:N-N (operon,genes) Parse 252 +-----------COMP_in:V_PASS-N----------+ +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 253 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,stress) OBJ:V-N (with,genes) SUBJ:V-N (been,products) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (shown,activity) Parse 254 +---------------------SUBJ:V_PASS-N--------------------+-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 255 +---------------------SUBJ:V_PASS-N--------------------+-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 256 +-----------------------------------COMP_to:N-N----------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (operon,activity) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (other,three) Parse 257 +---------------------SUBJ:V_PASS-N--------------------+-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 258 +---------------------SUBJ:V_PASS-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (activity,stress) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) MOD_POST:N-ADJ (activity,response) Parse 259 +-----------------------------COMP_in:N-N----------------------------+ | +-----COMP_to:V_PASS-N----+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+ +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ | | +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_to:V_PASS-N (shown,activity) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_in:N-N (genes,response) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (with,genes) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V-N (been,products) Parse 260 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-----------------------COMP_to:V_PASS-N-----------------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) Parse 261 +-----------------------------------COMP_to:N-N----------------------------------+ +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +--MOD_ATT:N-N--+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_to:N-N (operon,activity) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (activity,control) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (other,three) Parse 262 +-----------------------COMP_to:V_PASS-N-----------------------+ +-----------COMP_in:V_PASS-N----------+ | +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) MOD_ATT:N-N (GENEXXX,control) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 263 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 264 +---------------------------------COMP_to:V-V--------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ | +----OBJ:V-N----+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | | +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V-V (lies,control) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) OBJ:V-N (control,activity) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 265 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +-COMP_to:V_PASS-N+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V_PASS-N--+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) SUBJ:V_PASS-N (shown,products) MOD_ATT:N-ADJ (stress,environmental) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) OBJ:V-N (with,genes) Parse 266 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 267 +-----------------------COMP_to:V_PASS-N-----------------------+ +---------------------SUBJ:V_PASS-N--------------------+-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) OBJ:V-N (control,GENEXXX) Parse 268 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 269 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 270 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 271 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 272 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------COMP_in:V_PASS-N----------+ | | +---------OBJ:V-N---------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) MOD_ATT:N-N (GENEXXX,control) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 273 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_POST:N-ADJ (activity,response) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 274 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 275 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +-----------------------------COMP_in:N-N----------------------------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:N-N (genes,response) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (with,genes) Parse 276 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 277 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------------------------COMP_in:N-N----------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+ +----OBJ:V-N----+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) MOD_ATT:N-N (activity,GENEXXX) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:N-N (genes,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) OBJ:V-N (control,activity) SUBJ:V-N (been,products) OBJ:V-N (with,genes) Parse 278 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-----------COMP_in:V_PASS-N----------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) Parse 279 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+-----------COMP_in:V_PASS-N----------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) OBJ:V-N (control,GENEXXX) Parse 280 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) COMP_to:V-N (lies,stress) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) OBJ:V-N (control,GENEXXX) Parse 281 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | | +---------------------SUBJ:V_PASS-N--------------------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (other,three) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) MOD_ATT:N-ADJ (stress,environmental) COMP_with:N-N (operon,genes) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) COMP_to:V-N (lies,stress) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) OBJ:V-N (control,GENEXXX) Parse 282 +---------OBJ:V-N---------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 283 +---------------------SUBJ:V_PASS-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 284 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 285 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (with,genes) SUBJ:V-N (been,products) SUBJ:V-N (lies,gene) OBJ:V-N (shown,activity) MOD_POST:N-ADJ (activity,response) Parse 286 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-COMP_to:V_PASS-N+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) COMP_to:N-N (response,stress) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) Parse 287 +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ +-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) MOD_POST:N-ADJ (activity,response) Parse 288 +---------------------SUBJ:V_PASS-N--------------------+-----------COMP_in:V_PASS-N----------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_in:V_PASS-N (shown,response) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 289 +---------------------SUBJ:V_PASS-N--------------------+---------OBJ:V-N---------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +-COMP_to:V_PASS-N+ | +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 290 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) OBJ:V-N (with,genes) SUBJ:V-N (been,products) SUBJ:V-N (lies,gene) OBJ:V-N (shown,activity) Parse 291 +---------------------SUBJ:V_PASS-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+ +MOD_ATT+COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (activity,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (activity,stress) COMP_to:V_PASS-N (shown,control) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 292 +-----------------------------COMP_in:N-N----------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_in:N-N (genes,response) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) Parse 293 +-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----------COMP_with:V-N-----------+ +-COMP_to:V_PASS-N+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) Parse 294 +---------------------SUBJ:V_PASS-N--------------------+-----------------------COMP_to:V_PASS-N-----------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V_PASS-N (shown,stress) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 295 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 296 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) SUBJ:V-N (lies,gene) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) SUBJ:V-N (been,products) OBJ:V-N (with,genes) OBJ:V-N (shown,activity) Parse 297 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ | +MOD_ATT+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) COMP_in:N-N (activity,response) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) SUBJ:V-N (been,products) OBJ:V-N (with,genes) OBJ:V-N (shown,activity) Parse 298 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_in:V-N (lies,response) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 299 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +---------------------SUBJ:V_PASS-N--------------------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:N-N (operon,genes) MOD_ATT:N-ADJ (gene,structural) APPOS (gene,GENEXXX) COMP_in:N-N (activity,response) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) SUBJ:V-N (been,products) COMP_to:V-N (lies,stress) OBJ:V-N (shown,activity) MOD_ATT:N-ADJ (other,three) Parse 300 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ | +-----------COMP_in:V_PASS-N----------+ | | +---------OBJ:V-N---------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) COMP_in:V_PASS-N (shown,response) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (lies,gene) COMP_to:V-N (lies,stress) MOD_ATT:N-N (GENEXXX,control) SUBJ:V-N (been,products) OBJ:V-N (with,genes) OBJ:V-N (shown,activity) Parse 301 +-----------------------------------------------------------COMP_to:V-N-----------------------------------------------------------+ +-----------------------------------------------COMP_in:V-N----------------------------------------------+ | | +---------OBJ:V-N---------+ | | +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | | | | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) OBJ:V-N (with,genes) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_to:V-N (lies,stress) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) MOD_ATT:N-N (GENEXXX,control) SUBJ:V-N (been,products) OBJ:V-N (shown,activity) Parse 302 +---------------------SUBJ:V_PASS-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:N-N (activity,response) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 303 +---------------------SUBJ:V_PASS-N--------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+ +---------OBJ:V-N---------+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:N-N (activity,response) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) SUBJ:V-N (been,products) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V_PASS-N (shown,operon) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 304 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+-------------COMP_to:N-N------------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ +MOD_POST:N-+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) SUBJ:V_PASS-N (shown,genes) COMP_to:N-N (activity,stress) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (with,genes) SUBJ:V-N (been,products) SUBJ:V-N (lies,gene) OBJ:V-N (shown,activity) MOD_POST:N-ADJ (activity,response) Parse 305 +-----------COMP_in:V_PASS-N----------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_in:V_PASS-N (shown,response) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (with,genes) SUBJ:V-N (been,products) SUBJ:V-N (lies,gene) OBJ:V-N (shown,activity) Parse 306 +-----------------------------COMP_in:N-N----------------------------+ | +---------OBJ:V-N---------+ | +---MOD_ATT:N-N--+----SUBJ:V-N----+ +-----COMP_with:N-N-----+---------SUBJ:V_PASS-N--------+-COMP_to:V_PASS-N+ | +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +MOD_A+ | +--SUBJ:V-N-+ | +MOD_ATT+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) COMP_in:N-N (genes,response) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) MOD_ATT:N-N (GENEXXX,control) COMP_to:V_PASS-N (shown,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) MOD_ATT:N-ADJ (other,three) SUBJ:V-N (lies,gene) SUBJ:V-N (been,products) COMP_with:N-N (operon,genes) OBJ:V-N (shown,activity) Parse 307 +-----------------------------------------------COMP_in:V-N----------------------------------------------+ +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) COMP_in:V-N (lies,response) SUBJ:V-N (lies,gene) SUBJ:V-N (been,products) OBJ:V-N (with,genes) OBJ:V-N (shown,activity) Parse 308 +---MOD_ATT:N-N--+----SUBJ:V-N----+-----COMP_with:V-N-----+ +---------SUBJ:V_PASS-N--------+---------OBJ:V-N---------+ +-------COMP_to:N-N------+ | +MOD_ATT+--APPOS-+ +COMP_in:V-N+ +-----OBJ:V-N-----+ +--SUBJ:V-N-+ +COMP_to:V+OBJ:V-N+ +COMP_in:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The GENEXXX structural gene , GENEXXX , lies in an operon with three other genes whose products have been shown to control GENEXXX activity in response to environmental stress . COMP_in:V-N (lies,operon) MOD_ATT:N-N (gene,GENEXXX) COMP_with:V-N (lies,three) MOD_ATT:N-ADJ (gene,structural) COMP_to:N-N (response,stress) SUBJ:V_PASS-N (shown,genes) APPOS (gene,GENEXXX) COMP_to:V_PASS-V (shown,control) COMP_in:N-N (activity,response) OBJ:V-N (control,GENEXXX) MOD_ATT:N-ADJ (stress,environmental) OBJ:V-N (with,genes) SUBJ:V-N (been,products) SUBJ:V-N (lies,gene) OBJ:V-N (shown,activity) PMID: 8093697-1 Sentence 23 Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . Parse 0 +---------------------------------SUBJ:V-N--------------------------------+ | +-----------------COMP_of:N-N----------------+ | | | +--MOD_ATT:N-N--+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | +MOD_AT+ +MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (cluster,gene) COMP_of:N-N (upstream,GENEXXX) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 1 +---------------------------------SUBJ:V-N--------------------------------+ | +---------------------COMP_of:N-N--------------------+ | | | +--MOD_ATT:N-N--+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ +MOD_AT+ +MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (region,GENEXXX) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (cluster,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 2 +---------------------------------SUBJ:V-N--------------------------------+ | +-----------------COMP_of:N-N----------------+ | | | +------MOD_ATT:N-N-----+ | | | | | +--MOD_ATT:N-N--+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | | | +MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) COMP_of:N-N (upstream,GENEXXX) MOD_ATT:N-N (GENEXXX,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 3 +---------------------------------SUBJ:V-N--------------------------------+ | +---------------------COMP_of:N-N--------------------+ | | | +------MOD_ATT:N-N-----+ | | | | | +--MOD_ATT:N-N--+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | | +MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (region,GENEXXX) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 4 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +--MOD_ATT:N-N--+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ +MOD_AT+ +MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (Deletion,GENEXXX) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (cluster,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 5 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +------MOD_ATT:N-N-----+ | | | | +--MOD_ATT:N-N--+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | | +MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (Deletion,GENEXXX) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 6 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +---------------------MOD_ATT:N-N--------------------+ | | | +-------------COMP_of:N-N------------+ | | +----COMP_of:N-N---+ | | | +MOD_AT+MOD_ATT+MOD_ATT+ | +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . COMP_of:N-N (upstream,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_of:N-N (Deletion,GENEXXX) COMP_to:V-N (led,loss) MOD_ATT:N-N (GENEXXX,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (cluster,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 7 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +---------MOD_ATT:N-N--------+--MOD_ATT:N-N--+ | | +----COMP_of:N-N---+ | | +-COMP_of:N-N-+ | +MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) MOD_ATT:N-N (cluster,region) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_of:N-N (Deletion,GENEXXX) COMP_to:V-N (led,loss) COMP_of:N-N (upstream,gene) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 8 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +---------------------MOD_ATT:N-N--------------------+ | | | +-------------COMP_of:N-N------------+ | | | | | +--MOD_ATT:N-N-+ | | | +----COMP_of:N-N---+ | | | | +MOD_ATT+MOD_ATT+ | +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . COMP_of:N-N (upstream,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) MOD_ATT:N-N (GENEXXX,gene) COMP_of:N-N (Deletion,GENEXXX) COMP_to:V-N (led,loss) MOD_ATT:N-N (GENEXXX,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 9 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +-----------------MOD_ATT:N-N----------------+ | | | | +--MOD_ATT:N-N--+ | | +----COMP_of:N-N---+ | | +-COMP_of:N-N-+ | +MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_of:N-N (Deletion,GENEXXX) COMP_to:V-N (led,loss) COMP_of:N-N (upstream,gene) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,region) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 10 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +-----------------MOD_ATT:N-N----------------+ | | | | +-----COMP_of:N-N----+ | | | +----COMP_of:N-N---+ | | | +MOD_AT+ +MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (Deletion,GENEXXX) COMP_to:V-N (led,loss) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (cluster,gene) MOD_ATT:N-N (GENEXXX,region) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (upstream,cluster) COMP_of:N-N (loss,activity) Parse 11 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +-----------------MOD_ATT:N-N----------------+ | | | | +---------COMP_of:N-N--------+ | | | +----COMP_of:N-N---+ | | | +MOD_AT+MOD_ATT+ +MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_of:N-N (Deletion,GENEXXX) COMP_to:V-N (led,loss) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (cluster,gene) COMP_of:N-N (upstream,GENEXXX) MOD_ATT:N-N (GENEXXX,region) COMP_of:N-N (loss,activity) Parse 12 +---------------------------------SUBJ:V-N--------------------------------+ | +-----------------COMP_of:N-N----------------+ | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | +MOD_AT+MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (cluster,gene) COMP_of:N-N (upstream,GENEXXX) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 13 +---------------------------------SUBJ:V-N--------------------------------+ | +---------------------COMP_of:N-N--------------------+ | +----COMP_of:N-N---+ +--COMP_of:N-N-+ +MOD_AT+MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (region,GENEXXX) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (cluster,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 14 +---------------------------------SUBJ:V-N--------------------------------+ | +-----------------COMP_of:N-N----------------+ | | | +--MOD_ATT:N-N-+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | | +MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) MOD_ATT:N-N (GENEXXX,gene) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) COMP_of:N-N (upstream,GENEXXX) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 15 +---------------------------------SUBJ:V-N--------------------------------+ | +---------------------COMP_of:N-N--------------------+ | | | +--MOD_ATT:N-N-+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | +MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (region,GENEXXX) MOD_ATT:N-N (GENEXXX,cluster) MOD_ATT:N-N (GENEXXX,gene) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 16 +---------------------------------SUBJ:V-N--------------------------------+ | +-----------------COMP_of:N-N----------------+ | | | +------MOD_ATT:N-N-----+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | | +MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) COMP_of:N-N (upstream,GENEXXX) MOD_ATT:N-N (GENEXXX,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 17 +---------------------------------SUBJ:V-N--------------------------------+ | +---------------------COMP_of:N-N--------------------+ | | | +------MOD_ATT:N-N-----+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | +MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (region,GENEXXX) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 18 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | +----COMP_of:N-N---+ +--COMP_of:N-N-+ +MOD_AT+MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (Deletion,GENEXXX) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (cluster,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 19 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +--MOD_ATT:N-N-+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | +MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (Deletion,GENEXXX) MOD_ATT:N-N (GENEXXX,cluster) MOD_ATT:N-N (GENEXXX,gene) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 20 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +------MOD_ATT:N-N-----+ | | +----COMP_of:N-N---+ +--COMP_of:N-N-+ | +MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (Deletion,GENEXXX) MOD_ATT:N-N (GENEXXX,cluster) COMP_to:V-N (led,loss) COMP_of:N-N (Deletion,region) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 21 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +---------MOD_ATT:N-N--------+ | | +----COMP_of:N-N---+ | | +-COMP_of:N-N-+ +MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) MOD_ATT:N-N (cluster,region) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_of:N-N (Deletion,GENEXXX) COMP_to:V-N (led,loss) COMP_of:N-N (upstream,gene) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 22 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +-------------MOD_ATT:N-N------------+ | | +----COMP_of:N-N---+ | | +-COMP_of:N-N-+ +MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_of:N-N (Deletion,GENEXXX) COMP_to:V-N (led,loss) COMP_of:N-N (upstream,gene) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,region) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) Parse 23 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +-------------MOD_ATT:N-N------------+ | | | | +-----COMP_of:N-N----+ | | | +----COMP_of:N-N---+ | | | +MOD_AT+ +MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) COMP_of:N-N (Deletion,GENEXXX) COMP_to:V-N (led,loss) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,region) MOD_ATT:N-N (cluster,gene) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (upstream,cluster) COMP_of:N-N (loss,activity) Parse 24 +---------------------------------SUBJ:V-N--------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +-----------------MOD_ATT:N-N----------------+ | | +----COMP_of:N-N---+ | | +-COMP_of:N-N-+ +MOD_ATT+MOD_ATT+MOD_ATT+ +COMP_to:+ +MOD_ATT:+ | | | | | | | | | | | | Deletion of the region upstream of the gene cluster GENEXXX GENEXXX GENEXXX led to a loss of promoter activity . MOD_ATT:N-N (GENEXXX,GENEXXX) SUBJ:V-N (led,Deletion) MOD_ATT:N-N (GENEXXX,cluster) COMP_of:N-N (Deletion,GENEXXX) COMP_to:V-N (led,loss) COMP_of:N-N (upstream,gene) MOD_ATT:N-N (activity,promoter) MOD_ATT:N-N (GENEXXX,region) MOD_ATT:N-N (GENEXXX,GENEXXX) COMP_of:N-N (loss,activity) PMID: 8207022-1 Sentence 24 The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . Parse 0 +-----------------COMP_as:N-N----------------+ +---------------COMP_of:N-N---------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (than,GENEXXX) Parse 1 +------------------COMP_from:V-N------------------+ +----------------------COMP_as:N-N----------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 2 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 3 +----------------------COMP_of:N-N----------------------+ +-----------------COMP_as:N-N----------------+ | +------------------COMP_from:V-N------------------+ | +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (GENEXXX,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (half,GENEXXX) COMP_of:N-N (amount,GENEXXX) Parse 4 +-----------------------------------COMP_of:N-N-----------------------------------+ +------------------COMP_from:V-N------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 5 +-----------------------------------COMP_of:N-N-----------------------------------+ +------------------COMP_from:V-N------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 6 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 7 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | | +---------------COMP_of:N-N---------------+ | | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 8 +------------------COMP_from:V-N------------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) OBJ:V-N (as,amounts) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 9 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 10 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (than,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 11 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 12 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 13 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +---------------COMP_of:N-N---------------+ | | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 14 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 15 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 16 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 17 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +------------------COMP_from:V-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_as:V-N (stimulated,amounts) Parse 18 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------------COMP_of:N-N---------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 19 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------COMP_of:N-N---------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 20 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) Parse 21 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) Parse 22 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:V-N (stimulated,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 23 +--------------------------------COMP_as:ADV-N-------------------------------+ +------------------COMP_from:V-N------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_in:ADJ-N (transcription,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 24 +--------------------------------COMP_as:ADV-N-------------------------------+ +------------------COMP_from:V-N------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 25 +-----------------------------------------COMP_as:N-N----------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 26 +-----------------------------------------COMP_as:N-N----------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 27 +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 28 +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 29 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 30 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) MOD:V-ADV (stimulated,as) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 31 +--------------------------------COMP_as:ADV-N-------------------------------+ +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 32 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:ADV-N (greater,half) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 33 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:ADV-N (greater,half) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 34 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 35 +------------------COMP_from:V-N------------------+----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 36 +------------------COMP_from:V-N------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 37 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +------------------COMP_from:V-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:V-N (stimulated,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) COMP_of:N-N (half,GENEXXX) COMP_of:N-N (amount,GENEXXX) Parse 38 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:V-N (stimulated,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 39 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_in:ADJ-N (transcription,vitro) COMP_from:V-N (stimulated,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 40 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 41 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_about:V-N (stimulated,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 42 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 43 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 44 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 45 +------------------COMP_from:V-N------------------+ +----------------------COMP_as:N-N----------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 46 +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 47 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +--------------COMP_about:N-N-------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 48 +----------------------------COMP_of:N-N---------------------------+ +------------------COMP_from:V-N------------------+ +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (amount,half) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 49 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 50 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +------------------COMP_from:V-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 51 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +------------------COMP_from:V-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_as:V-N (stimulated,amounts) Parse 52 +------------------COMP_from:V-N------------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (as,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 53 +--------------COMP_about:N-N-------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) Parse 54 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (than,amounts) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 55 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (than,amounts) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 56 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 57 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 58 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 59 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +------------------COMP_from:V-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 60 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 61 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 62 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +------------------COMP_from:V-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_as:V-N (stimulated,amounts) Parse 63 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------COMP_about:N-N-------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 64 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) Parse 65 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) Parse 66 +-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 67 +----------------------COMP_as:N-N----------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 68 +-----------------COMP_as:N-N----------------+ +---------------COMP_of:N-N---------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ +----OBJ:V-ND_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (than,GENEXXX) Parse 69 +----------------------COMP_as:N-N----------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (amount,half) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 70 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 71 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 72 +----------------------COMP_as:N-N----------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 73 +--------------------------COMP_of:N-N--------------------------+ | +----------------------COMP_of:N-N----------------------+ | +-----------------COMP_as:N-N----------------+ | +------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (half,GENEXXX) Parse 74 +----------------------------COMP_of:N-N---------------------------+ +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 75 +-----------------------------------COMP_of:N-N-----------------------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 76 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 77 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | | +---------------COMP_of:N-N---------------+ | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 78 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 79 +---------------COMP_of:N-N---------------+ +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 80 +--------------------------------COMP_as:ADV-N-------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 81 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (transcription,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 82 +---------------COMP_of:N-N---------------+ +-------COMP_of:N-N-------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) Parse 83 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (than,amounts) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 84 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 85 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 86 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | | +---------------COMP_of:N-N---------------+ | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 87 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 88 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 89 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 90 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 91 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 92 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 93 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_as:V-N (stimulated,amounts) Parse 94 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 95 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 96 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 97 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 98 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 99 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 100 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) COMP_as:N-N (transcription,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 101 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 102 +---------------------------------------COMP_from:N-N---------------------------------------+ | +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 103 +---------------------------------------COMP_from:N-N---------------------------------------+ | +------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 104 +------------------------------COMP_as:N-N-----------------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (than,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) OBJ:V-N (than,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 105 +--------------------------------COMP_as:ADV-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 106 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 107 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 108 +------------------------------COMP_as:N-N-----------------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (than,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) OBJ:V-N (than,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 109 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 110 +-----------------OBJ:V-N-----------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) OBJ:V-N (than,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 111 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | | +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_as:N-N (than,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 112 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 113 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 114 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 115 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 116 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_about:ADV-N (greater,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 117 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ | | +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) COMP_in:ADJ-N (half,vitro) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 118 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ | | +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) COMP_in:ADJ-N (half,vitro) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 119 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 120 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 121 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_about:ADV-N (greater,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 122 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 123 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 124 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 125 +-----------------------------------COMP_of:N-N-----------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 126 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 127 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 128 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 129 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 130 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 131 +------------------COMP_from:V-N------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 132 +--------------COMP_about:N-N-------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) COMP_about:N-N (than,half) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) Parse 133 +-------------------------COMP_about:N-N------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 134 +-------------------------COMP_about:N-N------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 135 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 136 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 137 +-----------------------------------------COMP_as:N-N----------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 138 +-----------------------------------------COMP_as:N-N----------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 139 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 140 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 141 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_as:N-N (transcription,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 142 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 143 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_from:N-N (transcription,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 144 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_as:N-N (transcription,amounts) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 145 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +-------COMP_of:N-N-------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 146 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) COMP_in:ADJ-N (half,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) COMP_as:V-N (stimulated,amounts) Parse 147 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ | | | +-------COMP_of:N-N-------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_of:N-N (as,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) COMP_in:ADJ-N (half,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 148 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (as,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) COMP_in:ADJ-N (half,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 149 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-ADJ (amounts,equivalent) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (as,amounts) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (half,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 150 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 151 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 152 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 153 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 154 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 155 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 156 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 157 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 158 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 159 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 160 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_as:V-N (stimulated,amounts) Parse 161 +--------------------------------COMP_as:ADV-N-------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 162 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 163 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 164 +--------------------------------COMP_as:ADV-N-------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 165 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 166 +--------------COMP_about:N-N-------------+ +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 167 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 168 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 169 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +--------------COMP_about:N-N-------------+ | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 170 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +--------------COMP_about:N-N-------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_about:N-N (than,half) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 171 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 172 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 173 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +--------------COMP_about:N-N-------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) COMP_about:N-N (than,half) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 174 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 175 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 176 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 177 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 178 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 179 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_about:N-N (than,half) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 180 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 181 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 182 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 183 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,transcription) Parse 184 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 185 +------------------COMP_from:V-N------------------+ +-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 186 +------------------COMP_from:V-N------------------+ +----------------------COMP_as:N-N----------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 187 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 188 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------COMP_of:N-N---------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (than,half) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 189 +------------COMP_of:N-N------------+ +------------------COMP_from:V-N------------------+ +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 190 +--------------------------COMP_of:N-N--------------------------+ | +----------------------COMP_of:N-N----------------------+ | +-----------------COMP_as:N-N----------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (half,GENEXXX) Parse 191 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 192 +------------------COMP_from:V-N------------------+ +--------------------------------COMP_as:ADV-N-------------------------------+ +-------OBJ:V-N-------+ | | +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 193 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | | +---------------COMP_of:N-N---------------+ | | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 194 +------------------COMP_from:V-N------------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 195 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------COMP_of:N-N---------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 196 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (than,amounts) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 197 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 198 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 199 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ +------------COMP_of:N-N------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 200 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 201 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 202 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +------------------COMP_from:V-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 203 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------------COMP_of:N-N---------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 204 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 205 +-----------------------------------COMP_of:N-N-----------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_of:N-N (than,GENEXXX) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 206 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 207 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_from:V-N (stimulated,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 208 +------------------------------COMP_as:N-N-----------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (than,amounts) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 209 +---------------------------------------COMP_about:N-N--------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 210 +---------------------------------------COMP_about:N-N--------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 211 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_as:V-N (stimulated,amounts) Parse 212 +---------------------------------------COMP_about:N-N--------------------------------------+ | +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 213 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_as:N-N (transcription,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 214 +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 215 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (than,amounts) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 216 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +------------------COMP_from:V-N------------------+ | +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 217 +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 218 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) MOD:V-ADV (stimulated,as) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 219 +-----------------------------------------COMP_as:N-N----------------------------------------+ +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_about:ADV-N (greater,half) COMP_as:N-N (promoter,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 220 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 221 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 222 +----------------COMP_about:ADV-N---------------+ +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 223 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:ADV-N (greater,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 224 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_as:N-N (promoter,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_about:ADV-N (greater,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 225 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:ADV-N (greater,half) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 226 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:ADV-N (greater,half) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 227 +----------------------------COMP_of:N-N---------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 228 +----------------------------COMP_of:N-N---------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 229 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 230 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 231 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 232 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) COMP_about:N-N (than,half) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 233 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 234 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | +--------------------------------COMP_of:N-N--------------------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 235 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 236 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (transcription,GENEXXX) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 237 +------------------COMP_from:V-N------------------+----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 238 +------------------COMP_from:V-N------------------+----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 239 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------------COMP_of:N-N---------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 240 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 241 +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 242 +---------------------------------------COMP_about:N-N--------------------------------------+ +--------------------------------COMP_of:N-N--------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 243 +-------------------------COMP_about:N-N------------------------+ +------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 244 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 245 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_as:V-N (stimulated,amounts) COMP_from:V-N (stimulated,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 246 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 247 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) COMP_in:ADJ-N (transcription,vitro) COMP_from:V-N (stimulated,half) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 248 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 249 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_as:V-N (stimulated,amounts) Parse 250 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (transcription,amounts) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 251 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 252 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 253 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 254 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) COMP_as:V-N (stimulated,amounts) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 255 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 256 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_as:N-N (transcription,amounts) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 257 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 258 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 259 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +-------COMP_of:N-N-------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 260 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_about:N-N (transcription,half) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 261 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) COMP_as:V-N (stimulated,amounts) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 262 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 263 +------------------COMP_from:V-N------------------+ +--------------------------------COMP_as:ADV-N-------------------------------+ +-------OBJ:V-N-------+ | | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 264 +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 265 +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 266 +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 267 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 268 +-----------------------------------COMP_of:N-N-----------------------------------+ +------------------COMP_from:V-N------------------+ | +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (amount,amounts) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 269 +------------------COMP_from:V-N------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) OBJ:V-N (as,amounts) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 270 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 271 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 272 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 273 +--------------------------------COMP_as:ADV-N-------------------------------+ | +--------------COMP_about:N-N-------------+ | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 274 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+------------COMP_of:N-N------------+ +------------------COMP_from:V-N------------------+ +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 275 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (than,amounts) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 276 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 277 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_about:N-N (promoter,half) MOD:V-ADV (stimulated,as) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 278 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 279 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +------------------COMP_from:V-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 280 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +------------------COMP_from:V-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_as:V-N (stimulated,amounts) Parse 281 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------COMP_about:N-N-------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 282 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 283 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 284 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 285 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 286 +------------------COMP_from:V-N------------------+----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 287 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 288 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +------------------COMP_from:V-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 289 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------COMP_about:N-N-------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 290 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +------------------COMP_from:V-N------------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 291 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 292 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) Parse 293 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 294 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) Parse 295 +-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 296 +-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 297 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 298 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 299 +----------------------------COMP_of:N-N---------------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 300 +----------------------------COMP_of:N-N---------------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 301 +----------------------COMP_of:N-N----------------------+ +-----------------COMP_as:N-N----------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (GENEXXX,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (half,GENEXXX) COMP_of:N-N (than,GENEXXX) Parse 302 +----------------------COMP_of:N-N----------------------+ +-----------------COMP_as:N-N----------------+ | | +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (GENEXXX,GENEXXX) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (half,GENEXXX) COMP_of:N-N (amount,GENEXXX) Parse 303 +-----------------------------------COMP_of:N-N-----------------------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 304 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (transcription,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 305 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------COMP_of:N-N---------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 306 +--------------------------------COMP_as:ADV-N-------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 307 +-----------------------------------COMP_of:N-N-----------------------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 308 +-----------------------------------COMP_of:N-N-----------------------------------+ | +-----------------COMP_as:N-N----------------+ | +------------------COMP_from:V-N------------------+ | | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,well) Parse 309 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:N-N (amount,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 310 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,half) COMP_as:N-N (transcription,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 311 +-----------------------------------------COMP_as:N-N----------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 312 +---------------COMP_of:N-N---------------+ +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 313 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 314 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | +------------------COMP_from:V-N------------------+ | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,well) Parse 315 +------------COMP_of:N-N------------+ +------------------------------------------------------MOD:V-ADV------------------------------------------------------+---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,well) Parse 316 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 317 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 318 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 319 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | | +---------------COMP_of:N-N---------------+ | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 320 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 321 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 322 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 323 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 324 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 325 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 326 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 327 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 328 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 329 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 330 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 331 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 332 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 333 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 334 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,transcription) Parse 335 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 336 +-----------------------------------COMP_of:N-N-----------------------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_of:N-N (than,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 337 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 338 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ +------------------COMP_from:V-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 339 +---------------------------------------COMP_from:N-N---------------------------------------+ | +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 340 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 341 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 342 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 343 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+--------------COMP_of:N-N--------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 344 +------------------------------COMP_as:N-N-----------------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (than,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 345 +----------------COMP_about:ADV-N---------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 346 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 347 +----------------COMP_about:ADV-N---------------+ +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_about:ADV-N (greater,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 348 +----------------COMP_about:ADV-N---------------+ | +-------COMP_of:N-N-------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (half,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 349 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 350 +--------------------------------COMP_as:ADV-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 351 +-----------------OBJ:V-N-----------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 352 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 353 +-----------------OBJ:V-N-----------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 354 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | | +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (than,amounts) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 355 +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 356 +--------------------------------------------------COMP_about:V-N-------------------------------------------------+--------------COMP_of:N-N--------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 357 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 358 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) OBJ:V-N (than,amount) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 359 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) OBJ:V-N (than,amount) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 360 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) MOD:V-ADV (stimulated,as) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 361 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 362 +-----------------OBJ:V-N-----------------+--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 363 +--------------------------------COMP_as:ADV-N-------------------------------+ +----------------COMP_about:ADV-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 364 +--------------------------------COMP_as:ADV-N-------------------------------+ +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 365 +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 366 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 367 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:ADV-N (greater,amounts) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 368 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 369 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_about:ADV-N (greater,half) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 370 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +-------COMP_of:N-N-------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 371 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_about:ADV-N (greater,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 372 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 373 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +----------------COMP_about:ADV-N---------------+ | | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) COMP_about:ADV-N (greater,half) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 374 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +----------------COMP_about:ADV-N---------------+ | | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) COMP_about:ADV-N (greater,half) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 375 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 376 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 377 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | | | +-------COMP_of:N-N-------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 378 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_as:N-N (promoter,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_about:ADV-N (greater,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 379 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 380 +------------------COMP_from:V-N------------------+ +----------------------------COMP_of:N-N---------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 381 +------------------COMP_from:V-N------------------+----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 382 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 383 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 384 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 385 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 386 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 387 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 388 +------------------COMP_from:V-N------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 389 +------------------COMP_from:V-N------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 390 +------------------COMP_from:V-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 391 +-------------------------COMP_about:N-N------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 392 +-------------------------COMP_about:N-N------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 393 +-------------------------COMP_about:N-N------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (half,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 394 +---------------COMP_of:N-N---------------+ +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 395 +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 396 +---------------COMP_of:N-N---------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (than,GENEXXX) Parse 397 +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 398 +--------------------------COMP_of:N-N--------------------------+--------------COMP_of:N-N--------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 399 +-----------------------------------------COMP_as:N-N----------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 400 +-----------------------------------------COMP_as:N-N----------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 401 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_from:V-N (stimulated,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 402 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_from:N-N (transcription,promoter) COMP_as:N-N (transcription,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 403 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_from:N-N (transcription,promoter) COMP_as:N-N (transcription,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 404 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 405 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_from:N-N (transcription,half) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 406 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_from:N-N (transcription,half) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 407 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,half) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 408 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 409 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 410 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 411 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 412 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_from:N-N (transcription,half) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 413 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_as:N-N (transcription,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 414 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (as,amounts) COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 415 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+ | +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 416 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 417 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 418 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ +------------COMP_of:N-N------------+ | | +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (as,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) OBJ:V-N (as,amounts) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_in:ADJ-N (half,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 419 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 420 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 421 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 422 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 423 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 424 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ +------------COMP_of:N-N------------+ | +------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (as,GENEXXX) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 425 +--------------------------------COMP_as:ADV-N-------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 426 +---------OBJ:V-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 427 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 428 +------------COMP_of:N-N------------+ +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 429 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 430 +------------------COMP_from:V-N------------------+ +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (as,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 431 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 432 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 433 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 434 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +------------------COMP_from:V-N------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 435 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 436 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 437 +--------------COMP_about:N-N-------------+ +-------COMP_of:N-N-------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (than,GENEXXX) Parse 438 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 439 +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 440 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +------------------COMP_from:V-N------------------+ +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 441 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 442 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ +------------COMP_of:N-N------------+ | +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 443 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_about:N-N (transcription,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 444 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 445 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 446 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_as:V-N (stimulated,amounts) Parse 447 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 448 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) COMP_about:N-N (transcription,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 449 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 450 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 451 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 452 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +--------------COMP_about:N-N-------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (stimulated,transcription) Parse 453 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 454 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 455 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 456 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | | +-------------------------COMP_about:N-N------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (promoter,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 457 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_about:N-N (than,half) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 458 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_as:N-N (transcription,amounts) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 459 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (transcription,half) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-N (amounts,equivalent) Parse 460 +------------------COMP_from:V-N------------------+ +-----------------COMP_as:N-N----------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 461 +-----------------COMP_as:N-N----------------+ +---------------COMP_of:N-N---------------+ | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) Parse 462 +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 463 +-----------------------------------COMP_of:N-N-----------------------------------+ | +-----------------COMP_as:N-N----------------+ | | | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,well) Parse 464 +----------------------------COMP_of:N-N---------------------------+ | +-----------------COMP_as:N-N----------------+ | | | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,well) Parse 465 +-----------------------------------COMP_of:N-N-----------------------------------+ +------------------COMP_from:V-N------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 466 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 467 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_as:N-N (transcription,amounts) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 468 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | | +-----------------COMP_as:N-N----------------+ | +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 469 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 470 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 471 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (transcription,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 472 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (transcription,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 473 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 474 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 475 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | | +---------------COMP_of:N-N---------------+ | | | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 476 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 477 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ +------------COMP_of:N-N------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) OBJ:V-N (as,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 478 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +---------------COMP_of:N-N---------------+ | | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 479 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +---------------COMP_of:N-N---------------+ | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 480 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (promoter,amounts) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 481 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------OBJ:V-N-----------------+---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 482 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 483 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ +------------------COMP_from:V-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 484 +-----------------OBJ:V-N-----------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) OBJ:V-N (than,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 485 +----------------COMP_about:ADV-N---------------+ +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 486 +---------------------------------------COMP_about:N-N--------------------------------------+ | +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 487 +---------------------------------------COMP_about:N-N--------------------------------------+ | +------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_of:N-N (half,GENEXXX) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 488 +---------------------------------------COMP_about:N-N--------------------------------------+ | +------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 489 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 490 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,equivalent) Parse 491 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 492 +----------------COMP_about:ADV-N---------------+ +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) OBJ:V-N (as,amounts) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 493 +-----------------------------------------COMP_as:N-N----------------------------------------+ +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_about:ADV-N (greater,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 494 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 495 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 496 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:ADV-N (greater,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 497 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 498 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_about:ADV-N (greater,half) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 499 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) COMP_about:ADV-N (greater,half) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 500 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ | | +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (half,amounts) COMP_in:ADJ-N (half,vitro) OBJ:V-N (stimulated,transcription) Parse 501 +----------------------------COMP_of:N-N---------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 502 +----------------------------COMP_of:N-N---------------------------+ +------------------COMP_from:V-N------------------+ | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 503 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 504 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 505 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 506 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) COMP_about:N-N (than,half) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 507 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | +--------------------------------COMP_of:N-N--------------------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 508 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 509 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------------COMP_of:N-N---------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 510 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+---------COMP_as:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 511 +--------------COMP_of:N-N--------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 512 +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 513 +-------------------------COMP_about:N-N------------------------+ +------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 514 +-------------------------COMP_about:N-N------------------------+ +------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 515 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 516 +---------------COMP_of:N-N---------------+--------------COMP_of:N-N--------------+ +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) Parse 517 +---------------COMP_of:N-N---------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) Parse 518 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +--------------COMP_of:N-N--------------+ +---------------------------------------COMP_from:N-N---------------------------------------+---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (half,GENEXXX) COMP_of:N-N (amount,GENEXXX) Parse 519 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,half) OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 520 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +------------------COMP_from:V-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 521 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 522 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,half) OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 523 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ +------------COMP_of:N-N------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_of:N-N (as,GENEXXX) COMP_from:V-N (stimulated,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 524 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 525 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_as:N-N (transcription,amounts) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 526 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_as:N-N (transcription,amounts) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 527 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 528 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_about:V-N (stimulated,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 529 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ +------------COMP_of:N-N------------+ | | +------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 530 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ +------------COMP_of:N-N------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_about:V-N (stimulated,half) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 531 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_as:N-N (transcription,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 532 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:V-N (stimulated,amounts) Parse 533 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ +--------COMP_of:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----OBJ:V-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 534 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_as:V-N (stimulated,amounts) Parse 535 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 536 +----------------------------------------------------------MOD:V-ADV----------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----OBJ:V-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) OBJ:V-N (as,amounts) COMP_about:N-N (transcription,half) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,equivalent) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 537 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_in:ADJ-N (half,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 538 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) OBJ:V-N (as,amounts) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (half,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 539 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ | | | +-------COMP_of:N-N-------+ | +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (as,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:ADJ-N (transcription,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) OBJ:V-N (as,amounts) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) COMP_in:ADJ-N (half,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 540 +------------------------------COMP_as:N-N-----------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_as:N-N (than,amounts) Parse 541 +-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 542 +--------------------------------COMP_as:ADV-N-------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:ADV-N (greater,amounts) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 543 +--------------------------------COMP_as:ADV-N-------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:ADV-N (greater,amounts) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 544 +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 545 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 546 +-----------------------------------COMP_of:N-N-----------------------------------+ | +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 547 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 548 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 549 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (promoter,half) MOD:V-ADV (stimulated,as) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 550 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 551 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 552 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 553 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +--------------COMP_about:N-N-------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 554 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_about:N-N (promoter,half) MOD:V-ADV (stimulated,as) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 555 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 556 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ +------------COMP_of:N-N------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 557 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------COMP_about:N-N-------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 558 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 559 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) COMP_about:N-N (transcription,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 560 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 561 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +-------------------------COMP_about:N-N------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 562 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (amounts,equivalent) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 563 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (promoter,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 564 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | | +-------------------------COMP_about:N-N------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_about:N-N (promoter,half) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 565 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | | +--------------COMP_about:N-N-------------+ | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_about:N-N (than,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 566 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 567 +-----------------COMP_as:N-N----------------+ +---------------COMP_of:N-N---------------+ | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) Parse 568 +----------------------------COMP_of:N-N---------------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 569 +--------------------------COMP_of:N-N--------------------------+ | +-----------------COMP_as:N-N----------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 570 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 571 +---------------COMP_of:N-N---------------+ +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (than,GENEXXX) Parse 572 +------------COMP_of:N-N------------+ +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 573 +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 574 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 575 +----------------------------COMP_of:N-N---------------------------+ +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 576 +-----------------------------------COMP_of:N-N-----------------------------------+ | +-----------------COMP_as:N-N----------------+ | +------------------COMP_from:V-N------------------+ | | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,well) Parse 577 +-----------------------------------COMP_of:N-N-----------------------------------+ | +-----------------COMP_as:N-N----------------+ | +------------------COMP_from:V-N------------------+ | | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,well) Parse 578 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 579 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+---------OBJ:V-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 580 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | | +---------------COMP_of:N-N---------------+ | | +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 581 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 582 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 583 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 584 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 585 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 586 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 587 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | | +-----------------COMP_as:N-N----------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 588 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 589 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 590 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | | +---------------COMP_of:N-N---------------+ | | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 591 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 592 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 593 +-----------------------------------COMP_of:N-N-----------------------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (than,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,half) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 594 +---------------------------------------COMP_from:N-N---------------------------------------+ | +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 595 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+--------------COMP_of:N-N--------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 596 +----------------COMP_about:ADV-N---------------+ | +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 597 +------------------------------COMP_as:N-N-----------------------------+ +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 598 +----------------COMP_about:ADV-N---------------+ +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_about:ADV-N (greater,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 599 +--------------------------------COMP_as:ADV-N-------------------------------+ +------------------COMP_from:V-N------------------+ | +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,half) COMP_as:ADV-N (greater,amounts) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 600 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_as:N-N (promoter,amounts) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 601 +--------------------------------------------------COMP_about:V-N-------------------------------------------------+--------------COMP_of:N-N--------------+ +------------------COMP_from:V-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) COMP_of:N-N (half,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 602 +-----------------------------------------COMP_as:N-N----------------------------------------+ +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_as:N-N (promoter,amounts) COMP_about:ADV-N (greater,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 603 +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) OBJ:V-N (as,amounts) COMP_of:N-N (as,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 604 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 605 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:ADV-N (greater,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 606 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:ADV-N (greater,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 607 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | +------------------COMP_from:V-N------------------+ | +-------COMP_of:N-N-------+ | +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) COMP_about:ADV-N (greater,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) Parse 608 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | | +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_about:ADV-N (greater,half) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 609 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +------------------COMP_from:V-N------------------+ +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+ | | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_as:N-N (promoter,amounts) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_about:ADV-N (greater,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 610 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:ADV-N (greater,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 611 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +--------------------------------------------COMP_in:ADJ-N--------------------------------------------+ | | +------------------COMP_of:N-N------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) COMP_in:ADJ-N (half,vitro) OBJ:V-N (stimulated,transcription) COMP_of:N-N (half,GENEXXX) Parse 612 +------------------COMP_from:V-N------------------+----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (amount,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 613 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 614 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 615 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 616 +-----------------------------------COMP_of:N-N-----------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 617 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 618 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 619 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 620 +---------------------------------------COMP_about:N-N--------------------------------------+ +--------------------------------COMP_of:N-N--------------------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 621 +---------------COMP_of:N-N---------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (than,GENEXXX) Parse 622 +-----------------------------------------COMP_as:N-N----------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 623 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ +------------------COMP_from:V-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:V-N (stimulated,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 624 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +------------------COMP_from:V-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_as:V-N (stimulated,amounts) COMP_from:V-N (stimulated,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 625 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +------------------COMP_from:V-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) MOD_ATT:N-ADJ (amount,equal) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 626 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,half) OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 627 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD:V-ADV (stimulated,as) OBJ:V-N (than,amount) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 628 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (transcription,amounts) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 629 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 630 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 631 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +--------------------------------------------------COMP_about:V-N-------------------------------------------------+ | +------------------COMP_from:V-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:V-N (stimulated,half) OBJ:V-N (than,amount) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 632 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 633 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | | +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 634 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+------------COMP_of:N-N------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_of:N-N (as,GENEXXX) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,well) Parse 635 +------------------COMP_from:V-N------------------+ +----------------------COMP_as:N-N----------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 636 +------------------COMP_from:V-N------------------+ +--------------------------------COMP_as:ADV-N-------------------------------+ +-------OBJ:V-N-------+ | | +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:ADV-N (greater,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 637 +----------------------------COMP_of:N-N---------------------------+ +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 638 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 639 +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 640 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+---------OBJ:V-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 641 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 642 +------------COMP_of:N-N------------+ +------------------------------------------------------MOD:V-ADV------------------------------------------------------+---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 643 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 644 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_as:ADV-N (greater,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 645 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) COMP_from:V-N (stimulated,promoter) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 646 +------------------COMP_from:V-N------------------+----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 647 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 648 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+-----------------------------------------COMP_as:N-N----------------------------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_as:N-N (promoter,amounts) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 649 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (promoter,half) MOD:V-ADV (stimulated,as) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) OBJ:V-N (stimulated,transcription) Parse 650 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | +--------------------------------COMP_of:N-N--------------------------------+ | +---------OBJ:V-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) COMP_about:N-N (transcription,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 651 +------------------------------COMP_as:N-N-----------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (than,amounts) Parse 652 +----------------------------COMP_of:N-N---------------------------+ | +-----------------COMP_as:N-N----------------+ | | | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,well) Parse 653 +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (promoter,amounts) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 654 +--------------------------COMP_of:N-N--------------------------+ | +----------------------COMP_of:N-N----------------------+ | +-----------------COMP_as:N-N----------------+ | | | +--------------COMP_of:N-N--------------+ +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (half,GENEXXX) Parse 655 +---------------COMP_of:N-N---------------+ +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 656 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (amount,half) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 657 +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 658 +-----------------------------------------COMP_as:N-N----------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 659 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | | | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-N (amounts,well) Parse 660 +-----------------------------------------COMP_as:N-N----------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 661 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+------------COMP_of:N-N------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 662 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 663 +-----------------------------------COMP_of:N-N-----------------------------------+ | +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,well) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 664 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +------------------COMP_from:V-N------------------+ +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 665 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 666 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | | +-----------------COMP_as:N-N----------------+ | +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 667 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 668 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | | +---------------COMP_of:N-N---------------+ | | | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 669 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +---------------COMP_of:N-N---------------+ | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_as:N-N (promoter,amounts) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 670 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +----------------COMP_about:ADV-N---------------+ | | | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 671 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 672 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | | +---------------COMP_of:N-N---------------+ | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 673 +---------------------------------------COMP_from:N-N---------------------------------------+ | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_from:N-N (transcription,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 674 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------OBJ:V-N-----------------+---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 675 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (amount,equal) COMP_from:V-N (stimulated,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 676 +--------------------------------------------------COMP_from:V-N--------------------------------------------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:V-N (stimulated,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 677 +---------------------------------------COMP_about:N-N--------------------------------------+ | +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 678 +------------------COMP_from:V-N------------------+ +-----------------OBJ:V-N-----------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 679 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 680 +--------------COMP_of:N-N--------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 681 +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+--------------COMP_of:N-N--------------+ | +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) OBJ:V-N (stimulated,half) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 682 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------------COMP_as:ADV-N-------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:ADV-N (greater,amounts) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:ADV-N (greater,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 683 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 684 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 685 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) Parse 686 +--------------COMP_about:N-N-------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) COMP_about:N-N (than,half) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 687 +-------------------------COMP_about:N-N------------------------+ +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 688 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 689 +---------------COMP_of:N-N---------------+ +------------------COMP_from:V-N------------------+ +-------COMP_of:N-N-------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (than,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (than,GENEXXX) Parse 690 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) Parse 691 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) MOD_ATT:N-N (amounts,well) Parse 692 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 693 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ +------------COMP_of:N-N------------+ | | +-------COMP_of:N-N-------+ | +---------OBJ:V-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 694 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+ +COMP_in:A+ +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 695 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ +-----------------------------------------------------OBJ:V-N-----------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (stimulated,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 696 +----------------------COMP_as:N-N----------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 697 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (as,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 698 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 699 +------------------------------------------------------------------COMP_as:V-N-----------------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:V-N (stimulated,amounts) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 700 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 701 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 702 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | | +--------------COMP_about:N-N-------------+ | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_as:N-N (promoter,amounts) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_about:N-N (than,half) OBJ:V-N (stimulated,transcription) Parse 703 +----------------------COMP_as:N-N----------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) MOD_ATT:N-N (amount,equal) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 704 +-----------------COMP_as:N-N----------------+ +---------------COMP_of:N-N---------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ +----OBJ:V-ND_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (GENEXXX,amounts) OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (than,GENEXXX) Parse 705 +----------------------COMP_of:N-N----------------------+ +-----------------COMP_as:N-N----------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (GENEXXX,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (half,GENEXXX) COMP_of:N-N (than,GENEXXX) Parse 706 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 707 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +-----------------COMP_as:N-N----------------+ | | +---------------COMP_of:N-N---------------+ | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 708 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 709 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+-----------------COMP_as:N-N----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_as:N-N (GENEXXX,amounts) COMP_of:N-N (promoter,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 710 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-----------------------------------------COMP_as:N-N----------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 711 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 712 +-----------------------------------COMP_of:N-N-----------------------------------+ +-----------------OBJ:V-N-----------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_of:N-N (than,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) OBJ:V-N (than,half) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 713 +---------------------------------------COMP_from:N-N---------------------------------------+ | +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 714 +----------------COMP_about:ADV-N---------------+ | +-------COMP_of:N-N-------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_about:ADV-N (greater,half) COMP_of:N-N (half,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 715 +--------------COMP_of:N-N--------------+ +---------------------------------------COMP_about:N-N--------------------------------------+---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) COMP_about:N-N (transcription,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 716 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | | +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) OBJ:V-N (than,half) COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 717 +---------------------------------------COMP_about:N-N--------------------------------------+ | +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 718 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +------------------------------COMP_as:N-N-----------------------------+ | | +-----------------OBJ:V-N-----------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (than,amounts) OBJ:V-N (than,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 719 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | | +----------------COMP_about:ADV-N---------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ | +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) COMP_as:N-N (transcription,amounts) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_about:ADV-N (greater,half) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 720 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 721 +----------------------------------------------COMP_of:N-N----------------------------------------------+ | +--------------COMP_about:N-N-------------+ | | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) COMP_about:N-N (than,half) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) Parse 722 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------------------------COMP_about:N-N------------------------+ | +------------------COMP_from:V-N------------------+------------------COMP_of:N-N------------------+ | | +-------OBJ:V-N-------+ | +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_from:V-N (stimulated,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 723 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-------------------------COMP_about:N-N------------------------+ | | +------------------COMP_of:N-N------------------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) COMP_about:N-N (promoter,half) COMP_of:N-N (promoter,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 724 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 725 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | | +-------COMP_of:N-N-------+ +---------COMP_as:N-N--------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 726 +----------------------------------------------COMP_of:N-N----------------------------------------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+--------COMP_of:N-N-------+---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (amount,half) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) Parse 727 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +---------------COMP_of:N-N---------------+ | | +-------COMP_of:N-N-------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (than,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 728 +---------------------------------------COMP_about:N-N--------------------------------------+ +--------------------------------COMP_of:N-N--------------------------------+ +---------COMP_as:N-N--------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 729 +--------------------------COMP_of:N-N--------------------------+ +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (promoter,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 730 +-----------------------------------------COMP_as:N-N----------------------------------------+ +---------------------------------------COMP_from:N-N---------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ +MOD:+ +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) MOD_ATT:N-N (promoter,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) COMP_of:N-N (amounts,GENEXXX) Parse 731 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ | +-----------------------------------------COMP_as:N-N----------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | | +-------COMP_of:N-N-------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (half,amounts) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (promoter,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 732 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ | +---------------------------------------COMP_from:N-N---------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | +MOD:+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,half) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) MOD:ADJ-ADV (half,about) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 733 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) COMP_as:N-N (transcription,amounts) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) MOD_ATT:N-ADJ (amount,equal) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD_ATT:N-N (amounts,well) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 734 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------OBJ:V-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (amounts,GENEXXX) OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) Parse 735 +------------------------------------------------------MOD:V-ADV------------------------------------------------------+ | +---------------------------------------COMP_about:N-N--------------------------------------+ | | | +------------------COMP_of:N-N------------------+ | +------------COMP_of:N-N------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +---------OBJ:V-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (as,amounts) OBJ:V-N (than,amount) COMP_of:N-N (as,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) MOD_ATT:N-ADJ (amounts,equivalent) COMP_in:V-N (stimulated,vitro) COMP_of:N-N (promoter,GENEXXX) MOD_ATT:N-N (domain,carboxyl) MOD:V-ADV (stimulated,as) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) Parse 736 +-----------------------------------COMP_of:N-N-----------------------------------+ | +----------------------COMP_as:N-N----------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+------COMP_about:N-N------+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (amount,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) COMP_of:N-N (than,GENEXXX) SUBJ:V-N (stimulated,domain) COMP_as:N-N (amount,amounts) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) COMP_of:N-N (amount,GENEXXX) Parse 737 +------------------------------------------------------------COMP_of:N-N------------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | +--------------------------------COMP_of:N-N--------------------------------+ | | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_of:N-N (transcription,GENEXXX) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 738 +-------------------------COMP_about:N-N------------------------+ +------------------COMP_of:N-N------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (promoter,GENEXXX) OBJ:V-N (than,amount) COMP_about:N-N (promoter,half) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_as:N-N (half,amounts) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 739 +---------------------------------------COMP_about:N-N--------------------------------------+ +--------------------------------COMP_of:N-N--------------------------------+ +--------------COMP_of:N-N--------------+ +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | +---------COMP_as:N-N--------+ | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_of:N-N (half,GENEXXX) COMP_of:N-N (transcription,GENEXXX) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_about:N-N (transcription,half) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_as:N-N (half,amounts) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) MOD_ATT:N-ADJ (amounts,equivalent) Parse 740 +-------------------------------------------------------COMP_as:N-N------------------------------------------------------+ +---------------------------------------COMP_about:N-N--------------------------------------+ | +-------OBJ:V-N-------+-------COMP_from:N-N-------+ +----OBJ:V-N---+ | | +MOD_ATT+SUBJ:V-N+COMP_in:V-N+ | +MOD_ATT+ | +MOD_A+COMP_of:N-+ | +MOD_ATT:N+COMP_of:N-+ | | | | | | | | | | | | | | | The carboxyl domain stimulated in vitro transcription from the GENEXXX promoter 5-fold greater than an equal amount of GENEXXX and about half as well as equivalent amounts of GENEXXX . COMP_as:N-N (transcription,amounts) COMP_about:N-N (transcription,half) OBJ:V-N (than,amount) COMP_from:N-N (transcription,promoter) COMP_in:V-N (stimulated,vitro) MOD_ATT:N-N (domain,carboxyl) SUBJ:V-N (stimulated,domain) MOD_ATT:N-N (amount,equal) COMP_of:N-N (amounts,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (stimulated,transcription) COMP_of:N-N (amount,GENEXXX) MOD_ATT:N-ADJ (amounts,equivalent) PMID: 8320224-1 Sentence 25 Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . Parse 0 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 1 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 2 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 3 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 4 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 5 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 6 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 7 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 8 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 9 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 10 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 11 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 12 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 13 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 14 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 15 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---MOD_ATT:N-ADJ---+ | | +--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 16 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 17 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 18 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 19 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 20 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 21 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 22 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 23 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 24 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 25 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 26 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 27 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 28 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 29 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 30 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 31 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--MOD_ATT:N-N-+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 32 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+ +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 33 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 34 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 35 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 36 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 37 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 38 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 39 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 40 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N---------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 41 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N---------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 42 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 43 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 44 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 45 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 46 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 47 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 48 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 49 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 50 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 51 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 52 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 53 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 54 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 55 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 56 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--MOD_ATT:N-N-+--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 57 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 58 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--MOD_ATT:N-N-+--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 59 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 60 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+ +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 61 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 62 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 63 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 64 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 65 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 66 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 67 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 68 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 69 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N---------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sporulating) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 70 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 71 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 72 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 73 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 74 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 75 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 76 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 77 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 78 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 79 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 80 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 81 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 82 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 83 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 84 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (polymerase,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 85 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 86 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 87 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 88 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 89 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 90 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 91 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 92 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 93 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 94 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 95 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---MOD_ATT:N-ADJ---+ | | +--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 96 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 97 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---MOD_ATT:N-ADJ---+ | | +--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 98 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 99 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 100 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 101 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 102 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 103 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 104 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 105 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 106 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 107 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 108 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 109 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 110 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 111 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | | +--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 112 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 113 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | | +--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 114 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 115 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 116 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 117 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 118 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 119 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 120 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 121 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 122 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 123 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 124 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 125 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 126 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 127 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 128 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 129 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 130 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 131 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 132 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 133 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 134 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 135 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 136 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 137 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 138 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 139 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 140 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 141 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 142 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 143 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 144 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---MOD_ATT:N-ADJ---+ | | +--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 145 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 146 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 147 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 148 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 149 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 150 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 151 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 152 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 153 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 154 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 155 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 156 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 157 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 158 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---MOD_ATT:N-ADJ---+ | | +---------------COMP_from:N-N--------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 159 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 160 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 161 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 162 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 163 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 164 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 165 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 166 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 167 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 168 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 169 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 170 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 171 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 172 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 173 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 174 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 175 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 176 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 177 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 178 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 179 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 180 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 181 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 182 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 183 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---MOD_ATT:N-ADJ---+ | +---------------------COMP_from:N-N--------------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 184 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 185 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 186 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 187 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 188 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 189 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---MOD_ATT:N-ADJ---+ | +---------------------COMP_from:N-N--------------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 190 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 191 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 192 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 193 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 194 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 195 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 196 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 197 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 198 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 199 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 200 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 201 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 202 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 203 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 204 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-MOD_ATT:N-ADJ+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 205 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 206 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 207 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 208 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 209 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--------------MOD_ATT:N-ADJ--------------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 210 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 211 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 212 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 213 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 214 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 215 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 216 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 217 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---------------MOD_ATT:N-N---------------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 218 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--MOD_ATT:N-N-+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 219 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 220 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 221 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 222 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--MOD_ATT:N-N-+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 223 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 224 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 225 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 226 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--------------MOD_ATT:N-ADJ--------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 227 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 228 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 229 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N---------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 230 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 231 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 232 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 233 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 234 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 235 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N---------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 236 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 237 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 238 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 239 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 240 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 241 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 242 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | | | +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 243 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | | | +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 244 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---MOD_ATT:N-ADJ---+ | | +---------------COMP_from:N-N--------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 245 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 246 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 247 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 248 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 249 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 250 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 251 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 252 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 253 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 254 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +--MOD_ATT:N-N-+--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 255 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+ +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 256 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 257 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +--MOD_ATT:N-N-+--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 258 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+ +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 259 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 260 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 261 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 262 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 263 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 264 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 265 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--------------MOD_ATT:N-ADJ--------------+ | | | | +-MOD_ATT:N-ADJ+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,sporulating) Parse 266 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 267 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 268 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--MOD_ATT:N-N-+--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 269 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 270 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 271 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 272 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---SUBJ:V_PASS-N---+ +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 273 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 274 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 275 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--------------MOD_ATT:N-ADJ--------------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,sporulating) Parse 276 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 277 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 278 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 279 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 280 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 281 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 282 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 283 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 284 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 285 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 286 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 287 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 288 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 289 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 290 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 291 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 292 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 293 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--------------MOD_ATT:N-ADJ--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (RNA,sporulating) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 294 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 295 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 296 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 297 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---------------MOD_ATT:N-N---------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 298 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 299 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 300 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--------------MOD_ATT:N-ADJ--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (RNA,sporulating) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 301 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 302 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 303 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 304 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +--------------MOD_ATT:N-ADJ--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (RNA,sporulating) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 305 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 306 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 307 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 308 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 309 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N---------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 310 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 311 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 312 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 313 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | +---SUBJ:V_PASS-N---+ | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 314 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 315 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 316 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 317 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 318 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 319 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N---------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 320 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 321 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 322 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 323 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 324 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 325 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 326 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 327 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 328 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 329 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 330 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 331 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 332 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 333 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_from:V_PASS-N--------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 334 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 335 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 336 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (cell,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 337 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 338 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 339 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 340 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 341 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 342 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 343 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (polymerase,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 344 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 345 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (polymerase,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 346 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-------------------MOD_ATT:N-N------------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (polymerase,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 347 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +-------------------------COMP_from:V_PASS-N-------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) COMP_from:V_PASS-N (purified,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 348 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (polymerase,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 349 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 350 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-------------------MOD_ATT:N-N------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (polymerase,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 351 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 352 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 353 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 354 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 355 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 356 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 357 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 358 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 359 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 360 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---MOD_ATT:N-ADJ---+ | | +--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 361 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +--------COMP_from:V_PASS-N--------+ | | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 362 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 363 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 364 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 365 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 366 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 367 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 368 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 369 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 370 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | | | +-MOD_ATT:N-ADJ+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 371 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 372 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 373 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ | | | +--MOD_ATT:N-N-+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 374 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 375 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 376 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 377 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ | | | +--MOD_ATT:N-N-+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 378 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 379 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 380 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 381 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ | | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 382 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 383 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 384 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 385 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 386 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 387 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | | +--MOD_ATT:N-N-+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 388 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | | +---------------COMP_from:N-N--------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 389 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 390 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 391 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 392 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | | +---------------COMP_from:N-N--------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 393 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ | | | +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 394 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 395 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | | +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 396 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 397 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 398 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 399 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 400 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 401 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+--------COMP_from:V_PASS-N--------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 402 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 403 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 404 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------COMP_from:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:V_PASS-N (purified,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 405 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | +---------------------COMP_from:N-N--------------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 406 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | +---------------------COMP_from:N-N--------------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 407 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 408 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | | +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 409 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ | +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 410 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 411 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N-+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 412 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 413 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 414 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 415 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 416 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 417 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 418 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 419 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 420 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 421 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 422 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---MOD_ATT:N-ADJ---+ | | +---------------COMP_from:N-N--------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 423 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 424 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 425 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 426 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---MOD_ATT:N-ADJ---+ | | +---------------COMP_from:N-N--------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 427 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 428 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 429 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 430 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 431 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 432 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 433 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 434 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 435 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 436 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 437 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 438 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 439 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 440 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---MOD_ATT:N-ADJ---+ | +---------------------COMP_from:N-N--------------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 441 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---MOD_ATT:N-ADJ---+ | +---------------------COMP_from:N-N--------------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 442 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 443 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 444 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 445 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 446 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 447 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 448 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 449 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 450 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 451 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 452 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 453 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 454 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 455 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-MOD_ATT:N-ADJ+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 456 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-MOD_ATT:N-ADJ+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 457 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 458 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +--------------MOD_ATT:N-ADJ--------------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 459 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 460 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +--------------MOD_ATT:N-ADJ--------------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 461 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---SUBJ:V_PASS-N---+ +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 462 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 463 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 464 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 465 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 466 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 467 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 468 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 469 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 470 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 471 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 472 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 473 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 474 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 475 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 476 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 477 +------SUBJ:V-N-----+--------------OBJ:V-N-------------+ +MOD_ATT:N-N+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) SUBJ:V-N (recognizes,GENEXXX) Parse 478 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 479 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 480 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 481 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 482 +------SUBJ:V-N-----+--------------OBJ:V-N-------------+ +MOD_ATT:N-N+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 483 +------SUBJ:V-N-----+--------------OBJ:V-N-------------+ +MOD_ATT:N-AD+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,sporulating) SUBJ:V-N (showed,polymerase) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 484 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 485 +------SUBJ:V-N-----+--------------OBJ:V-N-------------+ +---MOD_ATT:N-ADJ---+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,sporulating) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 486 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 487 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 488 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 489 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | | +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 490 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +MOD_ATT:N-N+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) SUBJ:V-N (recognizes,GENEXXX) Parse 491 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +MOD_ATT:N-AD+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 492 +------SUBJ:V-N-----+--------------OBJ:V-N-------------+ +---MOD_ATT:N-ADJ---+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,sporulating) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 493 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +MOD_ATT:N-AD+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 494 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +---MOD_ATT:N-ADJ---+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 495 +--------------OBJ:V-N-------------+ +---MOD_ATT:N-ADJ---+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | | +MOD_ATT:N-N+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) SUBJ:V-N (recognizes,GENEXXX) Parse 496 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 497 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 498 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 499 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 500 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-MOD_ATT:N-ADJ+--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 501 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 502 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 503 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 504 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---SUBJ:V_PASS-N---+ +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 505 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 506 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 507 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 508 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 509 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +-----------MOD_ATT:N-N-----------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 510 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 511 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 512 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 513 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 514 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 515 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +--------------MOD_ATT:N-ADJ--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (RNA,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 516 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 517 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 518 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 519 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 520 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 521 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (RNA,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 522 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 523 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (RNA,sporulating) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 524 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +-----------MOD_ATT:N-N-----------+ | | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 525 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 526 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | +---SUBJ:V_PASS-N---+ | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 527 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 528 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 529 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (RNA,sporulating) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 530 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 531 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 532 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 533 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +-----------MOD_ATT:N-N-----------+ | | +---SUBJ:V_PASS-N---+ | | +--------MOD_ATT:N-N-------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 534 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 535 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 536 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 537 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 538 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 539 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 540 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 541 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 542 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 543 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 544 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 545 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 546 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 547 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 548 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | +---------------------COMP_from:N-N--------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) COMP_from:N-N (analysis,extracts) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-ADJ (polymerase,sporulating) Parse 549 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 550 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 551 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +---SUBJ:V_PASS-N---+ | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 552 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 553 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | | +-----------MOD_ATT:N-N-----------+ | +---SUBJ:V_PASS-N---+ | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 554 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 555 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) COMP_from:N-N (GENEXXX,polymerase) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 556 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +--------------------------------COMP_from:N-N-------------------------------+ | | | +------------------MOD_ATT:N-ADJ-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) COMP_from:N-N (GENEXXX,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 557 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 558 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 559 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +--------------------------------------COMP_from:N-N-------------------------------------+ | | +------------------MOD_ATT:N-ADJ-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | +-----------MOD_ATT:N-N-----------+ | | | | | +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | | | | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (analysis,polymerase) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (polymerase,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 560 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 561 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 562 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-AD+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_of:N-N (analysis,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 563 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) MOD_ATT:N-N (RNA,core) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 564 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 565 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,core) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 566 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+ | +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (recognizes,promoter) COMP_of:N-N (analysis,polymerase) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 567 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---MOD_ATT:N-ADJ---+ | | +---------------COMP_from:N-N--------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 568 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ | | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (polymerase,vegetative) Parse 569 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------------------------COMP_of:N-N--------------------------------------+ | | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+ +OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_of:N-N (analysis,polymerase) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 570 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 571 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 572 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 573 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 574 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ | | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 575 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 576 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 577 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ | | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 578 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 579 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 580 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | | +-MOD_ATT:N-ADJ+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 581 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 582 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 583 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 584 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | | +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 585 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ | | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 586 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---------------COMP_from:N-N--------------+ +---MOD_ATT:N-ADJ---+ | | | +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) COMP_from:N-N (GENEXXX,extracts) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 587 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 588 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | +---------------------COMP_from:N-N--------------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 589 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 590 +---------------------------------------------SUBJ:V-N--------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | +---------------------COMP_from:N-N--------------------+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ +MOD_ATT+MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 591 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | | +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+SUBJ:V_+ | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) SUBJ:V_PASS-N (purified,GENEXXX) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 592 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 593 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (core,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 594 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 595 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ | +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 596 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ +---MOD_ATT:N-ADJ---+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 597 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) SUBJ:V_PASS-N (purified,analysis) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 598 +---------------------------------------------SUBJ:V-N--------------------------------------------+ +---------------------COMP_from:N-N--------------------+ +---MOD_ATT:N-ADJ---+ | +---SUBJ:V_PASS-N---+ +-MOD_ATT:N-ADJ+ | +MOD_ATT:N-N+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:N-N (analysis,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) SUBJ:V_PASS-N (purified,analysis) OBJ:V-N (recognizes,promoter) SUBJ:V-N (showed,analysis) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (extracts,sporulating) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 599 +---------------------------OBJ:V-N---------------------------+ +------SUBJ:V-N-----+ +--------MOD_ATT:N-N-------+----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 600 +------SUBJ:V-N-----+--------------OBJ:V-N-------------+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 601 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 602 +---MOD_ATT:N-ADJ---+ +------SUBJ:V-N-----+--------------OBJ:V-N-------------+ | +MOD_ATT:N-N+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,sporulating) MOD_ATT:N-ADJ (polymerase,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 603 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 604 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | +------SUBJ:V-N-----+ | +--------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 605 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 606 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | +------SUBJ:V-N-----+ | +--------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,sporulating) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) MOD_ATT:N-N (RNA,extracts) Parse 607 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (extracts,sporulating) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 608 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 609 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 610 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) Parse 611 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 612 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +---------------MOD_ATT:N-N---------------+ | +------SUBJ:V-N-----+ | +--------MOD_ATT:N-N-------+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-N (RNA,sporulating) Parse 613 +---------------------------OBJ:V-N---------------------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ +--------MOD_ATT:N-N-------+----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,RNA) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 614 +---------------------------OBJ:V-N---------------------------+ | +------------------OBJ:V-N-----------------+ +------SUBJ:V-N-----+--------------OBJ:V-N-------------+ +MOD_ATT:N-AD+----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) OBJ:V-N (recognizes,promoter) OBJ:V-N (showed,extracts) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 615 +---------------------------OBJ:V-N---------------------------+ +----------------------COMP_from:V-N---------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ | +----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ | +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,RNA) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 616 +---------------------------OBJ:V-N---------------------------+ +----------------------COMP_from:V-N---------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ | +----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ | +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (extracts,sporulating) OBJ:V-N (purified,RNA) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 617 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 618 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 619 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +MOD_ATT:N-N+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 620 +--------------OBJ:V-N-------------+ +---MOD_ATT:N-ADJ---+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | | +MOD_ATT:N-N+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) SUBJ:V-N (recognizes,GENEXXX) Parse 621 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | | +------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) OBJ:V-N (showed,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) Parse 622 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) OBJ:V-N (showed,core) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (extracts,sporulating) OBJ:V-N (purified,promoter) Parse 623 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (extracts,sporulating) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 624 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 625 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) OBJ:V-N (showed,core) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (extracts,sporulating) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) Parse 626 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------OBJ:V-N---------------------+ | +------SUBJ:V-N-----+-------COMP_from:V-N-------+ +--------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,cell) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) MOD_ATT:N-N (RNA,extracts) Parse 627 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------OBJ:V-N---------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +MOD_ATT:N-N+ | | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) SUBJ:V-N (recognizes,GENEXXX) Parse 628 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+ +--------MOD_ATT:N-N-------+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 629 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | +------SUBJ:V-N-----+ | +-----------MOD_ATT:N-N-----------+ | | +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (showed,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) OBJ:V-N (purified,promoter) SUBJ:V-N (recognizes,GENEXXX) Parse 630 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+--------MOD_ATT:N-N-------+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 631 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | +------SUBJ:V-N-----+ | +-----------MOD_ATT:N-N-----------+ | | +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (showed,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,sporulating) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) OBJ:V-N (purified,promoter) Parse 632 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | +------SUBJ:V-N-----+ | | +MOD_ATT:N-AD+ | | | +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (showed,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,sporulating) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) OBJ:V-N (purified,promoter) SUBJ:V-N (recognizes,GENEXXX) Parse 633 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +------SUBJ:V-N-----+ | +--------MOD_ATT:N-N-------+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 634 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | +------SUBJ:V-N-----+ | | +--------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ | | +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,sporulating) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) OBJ:V-N (purified,promoter) Parse 635 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | +------SUBJ:V-N-----+ | | | +MOD_ATT:N-N+ | | +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ | | +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,sporulating) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) MOD_ATT:N-N (polymerase,cell) SUBJ:V-N (recognizes,GENEXXX) Parse 636 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +---------------MOD_ATT:N-N---------------+ | | | +-----------MOD_ATT:N-N-----------+ | +------SUBJ:V-N-----+ | | +--------MOD_ATT:N-N-------+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 637 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +---------------MOD_ATT:N-N---------------+ | | | +-----------MOD_ATT:N-N-----------+ | +------SUBJ:V-N-----+ | | +--------MOD_ATT:N-N-------+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (RNA,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 638 +---------------------------OBJ:V-N---------------------------+ +--------------OBJ:V-N-------------+------------------OBJ:V-N-----------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +MOD_ATT:N-AD+----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,cell) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) OBJ:V-N (recognizes,promoter) OBJ:V-N (showed,extracts) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 639 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------OBJ:V-N---------------------+ | +------SUBJ:V-N-----+-------COMP_from:V-N-------+ +-----------MOD_ATT:N-N-----------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,cell) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) OBJ:V-N (purified,promoter) Parse 640 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------OBJ:V-N---------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +MOD_ATT:N-AD+ | | | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (cell,sporulating) OBJ:V-N (showed,cell) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) OBJ:V-N (purified,promoter) SUBJ:V-N (recognizes,GENEXXX) Parse 641 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +-------------------------OBJ:V-N-------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | | | | | +-----------MOD_ATT:N-N-----------+ | | +------SUBJ:V-N-----+ | | | +MOD_ATT:N-AD+ | | | +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ | | | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) OBJ:V-N (showed,sporulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,sporulating) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,cell) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (RNA,vegetative) Parse 642 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 643 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 644 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 645 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (extracts,sporulating) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 646 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 647 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (extracts,sporulating) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 648 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 649 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,core) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) SUBJ:V-N (recognizes,GENEXXX) Parse 650 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +--MOD_ATT:N-N-+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (extracts,sporulating) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 651 +---------------------------OBJ:V-N---------------------------+ +------SUBJ:V-N-----+--------------OBJ:V-N-------------+ +----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,RNA) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 652 +---------------------------OBJ:V-N---------------------------+ +------SUBJ:V-N-----+--------------OBJ:V-N-------------+ +MOD_ATT:N-AD+----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ +---COMP_from:V-N---+ +MOD_AT+ | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) OBJ:V-N (purified,extracts) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,RNA) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 653 +---------------------------OBJ:V-N---------------------------+ +--------------OBJ:V-N-------------+ | +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,extracts) MOD_ATT:N-N (cell,sporulating) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,RNA) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 654 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +MOD_ATT:N-AD+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 655 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +---MOD_ATT:N-ADJ---+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 656 +--------------OBJ:V-N-------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +---MOD_ATT:N-ADJ---+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-ADJ (polymerase,vegetative) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) SUBJ:V-N (recognizes,GENEXXX) Parse 657 +--------------OBJ:V-N-------------+ +---MOD_ATT:N-ADJ---+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | | +MOD_ATT:N-N+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,core) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) MOD_ATT:N-ADJ (polymerase,vegetative) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,extracts) MOD_ATT:N-N (analysis,Reconstitution) SUBJ:V-N (recognizes,GENEXXX) Parse 658 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 659 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 660 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 661 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 662 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 663 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 664 +---------------------------OBJ:V-N---------------------------+ +----------------------COMP_from:V-N---------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ | +----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ | +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) OBJ:V-N (recognizes,promoter) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,RNA) MOD_ATT:N-N (promoter,P2) SUBJ:V-N (recognizes,GENEXXX) Parse 665 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | | +------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) OBJ:V-N (showed,core) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,promoter) Parse 666 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) OBJ:V-N (showed,core) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,promoter) Parse 667 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------OBJ:V-N---------------------+ | +------SUBJ:V-N-----+-------COMP_from:V-N-------+ +--------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,cell) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,cell) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (recognizes,GENEXXX) Parse 668 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) OBJ:V-N (showed,core) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) Parse 669 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 670 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+ +--------MOD_ATT:N-N-------+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (cell,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 671 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (RNA,sporulating) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 672 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------OBJ:V-N---------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +MOD_ATT:N-N+ | | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (polymerase,extracts) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (polymerase,core) OBJ:V-N (showed,cell) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) Parse 673 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | +-----------COMP_from:V-N----------+------------------OBJ:V-N-----------------+ | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (RNA,sporulating) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 674 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +-----------MOD_ATT:N-N-----------+ | +------SUBJ:V-N-----+ | +--------MOD_ATT:N-N-------+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) MOD_ATT:N-ADJ (cell,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 675 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | | | +-----------MOD_ATT:N-N-----------+ | +------SUBJ:V-N-----+ | | +--------MOD_ATT:N-N-------+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-ADJ (RNA,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 676 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | | | +-----------MOD_ATT:N-N-----------+ | +------SUBJ:V-N-----+ | | +--------MOD_ATT:N-N-------+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | | | +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (RNA,extracts) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,cell) MOD_ATT:N-ADJ (RNA,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 677 +---------------------------OBJ:V-N---------------------------+ +--------------OBJ:V-N-------------+------------------OBJ:V-N-----------------+ +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +----OBJ:V-N----+ +-----OBJ:V-N----+ +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (RNA,core) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,extracts) OBJ:V-N (recognizes,promoter) OBJ:V-N (showed,extracts) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 678 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------OBJ:V-N---------------------+ | +------SUBJ:V-N-----+-------COMP_from:V-N-------+ +-----------MOD_ATT:N-N-----------+ | | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | +MOD_ATT+MOD_+MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,cell) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,cell) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (RNA,core) OBJ:V-N (purified,promoter) SUBJ:V-N (recognizes,GENEXXX) Parse 679 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ | +---------------------OBJ:V-N---------------------+ | | | +-----------MOD_ATT:N-N-----------+ | | +------SUBJ:V-N-----+-------COMP_from:V-N-------+ | +MOD_ATT:N-AD+ | | | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+ | | +MOD_+MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (polymerase,extracts) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,cell) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (RNA,vegetative) OBJ:V-N (showed,cell) OBJ:V-N (showed,that) MOD_ATT:N-N (RNA,core) OBJ:V-N (purified,promoter) Parse 680 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 681 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 682 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) Parse 683 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 684 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 685 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) SUBJ:V-N (recognizes,GENEXXX) MOD_ATT:N-ADJ (RNA,vegetative) Parse 686 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ | +MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 687 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +MOD_ATT:N-AD+----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ | +MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-N (analysis,Reconstitution) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) MOD_ATT:N-ADJ (RNA,vegetative) Parse 688 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,core) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) SUBJ:V-N (recognizes,GENEXXX) Parse 689 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | +------SUBJ:V-N-----+-----------COMP_from:V-N----------+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | +MOD_ATT+MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) MOD_ATT:N-ADJ (cell,sporulating) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,core) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) Parse 690 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,core) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) MOD_ATT:N-N (promoter,P2) OBJ:V-N (purified,promoter) SUBJ:V-N (recognizes,GENEXXX) Parse 691 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +----------------------COMP_from:V-N---------------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +-------OBJ:V-N------+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+ +MOD_AT+SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (extracts,sporulating) COMP_from:V-N (purified,core) SUBJ:V-N (purified,analysis) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) MOD_ATT:N-N (promoter,P2) OBJ:V-N (showed,core) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (showed,that) OBJ:V-N (purified,promoter) Parse 692 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . SUBJ:V-N (recognizes,GENEXXX) COMP_of:N-N (analysis,GENEXXX) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (RNA,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) Parse 693 +-------------------------------------------------------OBJ:V-N------------------------------------------------------+ +------------------------COMP_from:V-N------------------------+ | | +--------------MOD_ATT:N-ADJ--------------+ | +-----------COMP_from:V-N----------+ | | +------SUBJ:V-N-----+ +-MOD_ATT:N-ADJ+ +----OBJ:V-N----+ | +MOD_ATT:N-N+COMP_of:N-N+ | | +MOD_AT+ +MOD_ATT+MOD_+ +SUBJ:V-N+OBJ:V+ +SUBJ:V-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Reconstitution analysis of GENEXXX purified from the sporulating cell extracts and vegetative core RNA polymerase showed that GENEXXX recognizes the P2 promoter . COMP_of:N-N (analysis,GENEXXX) OBJ:V-N (showed,that) MOD_ATT:N-N (extracts,cell) MOD_ATT:N-ADJ (extracts,sporulating) SUBJ:V-N (purified,analysis) MOD_ATT:N-N (RNA,core) COMP_from:V-N (purified,extracts) SUBJ:V-N (showed,polymerase) OBJ:V-N (showed,RNA) MOD_ATT:N-N (promoter,P2) MOD_ATT:N-ADJ (RNA,sporulating) MOD_ATT:N-N (analysis,Reconstitution) MOD_ATT:N-ADJ (core,vegetative) SUBJ:V-N (recognizes,GENEXXX) OBJ:V-N (purified,promoter) COMP_from:V-N (purified,RNA) PMID: 8464402-2 Sentence 26 At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . Parse 0 +----------------MOD:V-ADV----------------+----------------------------------COMP_in:V-N---------------------------------+ | +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ | | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ | +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (expression,genes) MOD:V-ADV (tune,least) COMP_of:N-N (timing,expression) COMP_in:V-N (tune,regulons) OBJ:V-N (tune,levels) Parse 1 +----------------------------------COMP_in:V-N---------------------------------+ +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ | +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+ | +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) COMP_in:V-N (tune,regulons) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (expression,genes) COMP_of:N-N (timing,expression) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (regulons,GENEXXX) Parse 2 +----------------------------------COMP_in:V-N---------------------------------+ | +------------COMP_of:N-N-----------+ | +----------------MOD:V-ADV----------------+ | +------COMP_of:N-N------+ | | +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ | | | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ | | +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) MOD:V-ADV (tune,least) COMP_of:N-N (timing,expression) COMP_in:V-N (tune,regulons) COMP_of:N-N (timing,genes) MOD_ATT:N-N (regulons,GENEXXX) OBJ:V-N (tune,levels) Parse 3 +----------------------------------COMP_in:V-N---------------------------------+ | +------------COMP_of:N-N-----------+ | +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ | | +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) COMP_in:V-N (tune,regulons) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) MOD_ATT:N-N (regulons,GENEXXX) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (timing,expression) COMP_of:N-N (timing,genes) MOD:ADJ-ADV (two,least) Parse 4 +----------------MOD:V-ADV----------------+ | +--------------SUBJ:V-N--------------+----------------------------------COMP_in:V-N---------------------------------+ | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (expression,genes) MOD:V-ADV (tune,least) COMP_in:V-N (tune,regulons) OBJ:V-N (tune,levels) Parse 5 +--------------SUBJ:V-N--------------+----------------------------------COMP_in:V-N---------------------------------+ +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+ +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) COMP_in:V-N (tune,regulons) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (expression,genes) MOD:ADJ-ADV (two,least) Parse 6 +----------------MOD:V-ADV----------------+ | +--------------SUBJ:V-N--------------+----------------------------------COMP_in:V-N---------------------------------+ | +------------OBJ:V-N------------+ +-------OBJ:V-N------+------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) MOD:V-ADV (tune,least) COMP_in:V-N (tune,regulons) OBJ:V-N (tune,levels) Parse 7 +--------------SUBJ:V-N--------------+----------------------------------COMP_in:V-N---------------------------------+ +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) COMP_in:V-N (tune,regulons) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) MOD:ADJ-ADV (two,least) Parse 8 +----------------MOD:V-ADV----------------+ | +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ +-----------COMP_in:N-N-----------+ | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ | | +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) COMP_of:N-N (timing,expression) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_in:N-N (genes,regulons) COMP_of:N-N (expression,genes) MOD:V-ADV (tune,least) OBJ:V-N (tune,levels) Parse 9 +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ +-----------COMP_in:N-N-----------+ +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+ | | +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_in:N-N (genes,regulons) COMP_of:N-N (expression,genes) COMP_of:N-N (timing,expression) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (regulons,GENEXXX) Parse 10 +----------------MOD:V-ADV----------------+ | +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+-----------------COMP_in:N-N-----------------+ | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ | +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) COMP_of:N-N (timing,expression) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (expression,genes) MOD:V-ADV (tune,least) OBJ:V-N (tune,levels) COMP_in:N-N (expression,regulons) Parse 11 +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+-----------------COMP_in:N-N-----------------+ +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+ | +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (expression,genes) COMP_of:N-N (timing,expression) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (regulons,GENEXXX) COMP_in:N-N (expression,regulons) Parse 12 +------------COMP_of:N-N-----------+ +----------------MOD:V-ADV----------------+ | +------COMP_of:N-N------+ | +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ +-----------COMP_in:N-N-----------+ | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ | | +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) COMP_of:N-N (timing,expression) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_in:N-N (genes,regulons) MOD:V-ADV (tune,least) COMP_of:N-N (timing,genes) MOD_ATT:N-N (regulons,GENEXXX) OBJ:V-N (tune,levels) Parse 13 +------------COMP_of:N-N-----------+ +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ +-----------COMP_in:N-N-----------+ +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) MOD_ATT:N-N (regulons,GENEXXX) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_in:N-N (genes,regulons) COMP_of:N-N (timing,expression) COMP_of:N-N (timing,genes) MOD:ADJ-ADV (two,least) Parse 14 +-----------------------------COMP_in:N-N----------------------------+ +----------------MOD:V-ADV----------------+ | +-----------------------COMP_in:N-N-----------------------+ | +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ | | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ | +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) COMP_of:N-N (timing,expression) MOD_ATT:N-N (regulons,GENEXXX) COMP_in:N-N (timing,regulons) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_in:N-N (levels,regulons) COMP_of:N-N (levels,expression) COMP_of:N-N (expression,genes) MOD:V-ADV (tune,least) MOD_ATT:N-N (regulons,GENEXXX) OBJ:V-N (tune,levels) Parse 15 +-----------------------------COMP_in:N-N----------------------------+ | +-----------------------COMP_in:N-N-----------------------+ +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ | +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+ | +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) COMP_in:N-N (timing,regulons) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) MOD_ATT:N-N (regulons,GENEXXX) COMP_in:N-N (levels,regulons) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (expression,genes) COMP_of:N-N (timing,expression) MOD:ADJ-ADV (two,least) Parse 16 +-----------------------------COMP_in:N-N----------------------------+ | +-----------------------COMP_in:N-N-----------------------+ +------------COMP_of:N-N-----------+ | +----------------MOD:V-ADV----------------+ | +------COMP_of:N-N------+ | | +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ | | | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ | | +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) COMP_of:N-N (timing,expression) MOD_ATT:N-N (regulons,GENEXXX) COMP_in:N-N (timing,regulons) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) MOD_ATT:N-N (regulons,GENEXXX) OBJ:V-N (tune,timing) COMP_in:N-N (levels,regulons) COMP_of:N-N (levels,expression) MOD:V-ADV (tune,least) COMP_of:N-N (timing,genes) OBJ:V-N (tune,levels) Parse 17 +-----------------------------COMP_in:N-N----------------------------+ | +-----------------------COMP_in:N-N-----------------------+ +------------COMP_of:N-N-----------+ | +--------------SUBJ:V-N--------------+ +------COMP_of:N-N-----+ | | +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) COMP_in:N-N (timing,regulons) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) COMP_in:N-N (levels,regulons) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (timing,expression) COMP_of:N-N (timing,genes) MOD:ADJ-ADV (two,least) Parse 18 +----------------MOD:V-ADV----------------+ | +--------------SUBJ:V-N--------------+ +-----------COMP_in:N-N-----------+ | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ | +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) COMP_of:N-N (levels,expression) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_in:N-N (genes,regulons) COMP_of:N-N (expression,genes) MOD:V-ADV (tune,least) OBJ:V-N (tune,levels) Parse 19 +--------------SUBJ:V-N--------------+ +-----------COMP_in:N-N-----------+ +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+ | +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_in:N-N (genes,regulons) COMP_of:N-N (expression,genes) MOD:ADJ-ADV (two,least) Parse 20 +----------------MOD:V-ADV----------------+ | +--------------SUBJ:V-N--------------+ +-----------------COMP_in:N-N-----------------+ | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ | +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) COMP_of:N-N (levels,expression) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (expression,genes) MOD:V-ADV (tune,least) OBJ:V-N (tune,levels) COMP_in:N-N (expression,regulons) Parse 21 +----------------MOD:V-ADV----------------+ | +--------------SUBJ:V-N--------------+ +-----------COMP_in:N-N-----------+ | +------------OBJ:V-N------------+ +-------OBJ:V-N------+------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) COMP_of:N-N (levels,expression) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_in:N-N (genes,regulons) MOD:V-ADV (tune,least) OBJ:V-N (tune,levels) Parse 22 +--------------SUBJ:V-N--------------+ +-----------------COMP_in:N-N-----------------+ +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+ | +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (expression,genes) MOD:ADJ-ADV (two,least) COMP_in:N-N (expression,regulons) Parse 23 +--------------SUBJ:V-N--------------+ +-----------COMP_in:N-N-----------+ +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_in:N-N (genes,regulons) MOD:ADJ-ADV (two,least) Parse 24 +----------------MOD:V-ADV----------------+ | +--------------SUBJ:V-N--------------+ +-----------------------COMP_in:N-N-----------------------+ | +------------OBJ:V-N------------+ +-------OBJ:V-N------+ +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) COMP_of:N-N (levels,expression) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_in:N-N (levels,regulons) COMP_of:N-N (expression,genes) MOD:V-ADV (tune,least) OBJ:V-N (tune,levels) Parse 25 +--------------SUBJ:V-N--------------+ +-----------------------COMP_in:N-N-----------------------+ +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+ +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+COMP_of:N-N+ | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) COMP_in:N-N (levels,regulons) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) COMP_of:N-N (expression,genes) MOD:ADJ-ADV (two,least) Parse 26 +----------------MOD:V-ADV----------------+ | +--------------SUBJ:V-N--------------+ +-----------------------COMP_in:N-N-----------------------+ | +------------OBJ:V-N------------+ +-------OBJ:V-N------+------COMP_of:N-N------+ +----MOD_ATT:N-N----+ | | +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) SUBJ:V-N (fine,factors) COMP_of:N-N (levels,expression) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) OBJ:V-N (tune,timing) COMP_in:N-N (levels,regulons) MOD:V-ADV (tune,least) OBJ:V-N (tune,levels) Parse 27 +--------------SUBJ:V-N--------------+ +-----------------------COMP_in:N-N-----------------------+ +MOD:+------------OBJ:V-N------------+ +-------OBJ:V-N------+------COMP_of:N-N------+ +----MOD_ATT:N-N----+ +MOD:+ +MOD_ATT:N-+SUBJ:+ +-OBJ:V-N-+ +COMP_of:N-N+ | | +MOD_ATT+ | | | | | | | | | | | | | At least two other transcription factors fine tune the timing and levels of expression of genes in the GENEXXX and GENEXXX regulons . COMP_of:N-N (levels,genes) MOD_ATT:N-N (factors,transcription) MOD:V-ADV (least,two) SUBJ:V-N (fine,factors) OBJ:V-N (tune,levels) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (tune,two) OBJ:V-N (fine,two) COMP_in:N-N (levels,regulons) OBJ:V-N (tune,timing) COMP_of:N-N (levels,expression) MOD:ADJ-ADV (two,least) PMID: 8464402-3 Sentence 27 Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . Parse 0 +-----------------SUBJ:V-N-----------------+ +-----------COMP_of:N-N----------+ +--------APPOS--------+ +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) MOD:V-ADV (segregate,determining) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (determining,development) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) COMP_of:N-N (development,prespore) Parse 1 +-----------------SUBJ:V-N-----------------+ +-----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) MOD:V-ADV (segregate,determining) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) COMP_of:N-N (development,prespore) Parse 2 +---------------------------OBJ:V-N---------------------------+ +-----------------SUBJ:V-N-----------------+ | +----------------MOD_ATT:N-ADJ----------------+ +--------APPOS--------+ +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . MOD_ATT:N-N (cell,mother) SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (prespore,differential) MOD:V-ADV (segregate,determining) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (determining,development) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 3 +---------------------------OBJ:V-N---------------------------+ +-----------------SUBJ:V-N-----------------+ | +----------------MOD_ATT:N-ADJ----------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . MOD_ATT:N-N (cell,mother) SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (prespore,differential) MOD:V-ADV (segregate,determining) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (determining,development) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 4 +-----------------SUBJ:V-N-----------------+ +---------------------------OBJ:V-N---------------------------+ +--------APPOS--------+ +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) MOD:V-ADV (segregate,determining) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (determining,development) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 5 +-----------------SUBJ:V-N-----------------+ +---------------------------OBJ:V-N---------------------------+ +--------APPOS--------+ +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) MOD:V-ADV (segregate,determining) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 6 +-----------------SUBJ:V-N-----------------+ +---------------------------OBJ:V-N---------------------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) MOD:V-ADV (segregate,determining) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (determining,development) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 7 +-----------------SUBJ:V-N-----------------+ +---------------------------OBJ:V-N---------------------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) MOD:V-ADV (segregate,determining) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 8 +-----------------SUBJ:V-N-----------------+ +-----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) COMP_of:N-N (development,prespore) Parse 9 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD:V-ADV (segregate,determining) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) COMP_of:N-N (development,prespore) Parse 10 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (development,differential) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD:V-ADV (segregate,determining) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) COMP_of:N-N (development,prespore) Parse 11 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD:V-ADV (segregate,determining) COMP_of:N-N (development,cell) COMP_of:N-N (development,prespore) Parse 12 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (development,differential) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD:V-ADV (segregate,determining) COMP_of:N-N (development,cell) COMP_of:N-N (development,prespore) Parse 13 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +--------APPOS--------+ +--------------------MOD:V-ADV--------------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) MOD:V-ADV (appear,determining) COMP_of:N-N (development,prespore) Parse 14 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +--------APPOS--------+ +--------------------MOD:V-ADV--------------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) MOD:V-ADV (appear,determining) COMP_of:N-N (development,prespore) Parse 15 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +--------------------MOD:V-ADV--------------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) MOD:V-ADV (appear,determining) COMP_of:N-N (development,prespore) Parse 16 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +--------------------MOD:V-ADV--------------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) MOD:V-ADV (appear,determining) COMP_of:N-N (development,prespore) Parse 17 +---------------------------OBJ:V-N---------------------------+ +-----------------SUBJ:V-N-----------------+ | +----------------MOD_ATT:N-ADJ----------------+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . MOD_ATT:N-N (cell,mother) SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (prespore,differential) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 18 +---------------------------OBJ:V-N---------------------------+ +-----------------SUBJ:V-N-----------------+ | +----------------MOD_ATT:N-ADJ----------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . MOD_ATT:N-N (cell,mother) SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (prespore,differential) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 19 +---------------------------OBJ:V-N---------------------------+ +-----------SUBJ:V-N-----------+ | +----------------MOD_ATT:N-ADJ----------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . MOD_ATT:N-N (cell,mother) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (development,differential) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD:V-ADV (segregate,determining) MOD_ATT:N-ADJ (prespore,differential) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 20 +---------------------------OBJ:V-N---------------------------+ +-----------SUBJ:V-N-----------+ | +----------------MOD_ATT:N-ADJ----------------+ +--------APPOS--------+ +--------------------MOD:V-ADV--------------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . MOD_ATT:N-N (cell,mother) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (prespore,differential) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) MOD:V-ADV (appear,determining) OBJ:V-N (determining,prespore) Parse 21 +---------------------------OBJ:V-N---------------------------+ +-----------SUBJ:V-N-----------+ | +----------------MOD_ATT:N-ADJ----------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +--------------------MOD:V-ADV--------------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . MOD_ATT:N-N (cell,mother) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (prespore,differential) COMP_of:N-N (development,cell) MOD:V-ADV (appear,determining) OBJ:V-N (determining,prespore) Parse 22 +-----------------SUBJ:V-N-----------------+ +---------------------------OBJ:V-N---------------------------+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 23 +-----------------SUBJ:V-N-----------------+ +---------------------------OBJ:V-N---------------------------+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 24 +-----------------SUBJ:V-N-----------------+ +---------------------------OBJ:V-N---------------------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 25 +-----------------SUBJ:V-N-----------------+ +---------------------------OBJ:V-N---------------------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) OBJ:V-N (segregate,septation) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 26 +-----------SUBJ:V-N-----------+ +---------------------------OBJ:V-N---------------------------+ +--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD:V-ADV (segregate,determining) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 27 +-----------SUBJ:V-N-----------+ +---------------------------OBJ:V-N---------------------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (development,differential) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD:V-ADV (segregate,determining) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 28 +-----------SUBJ:V-N-----------+ +---------------------------OBJ:V-N---------------------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD:V-ADV (segregate,determining) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 29 +-----------SUBJ:V-N-----------+ +---------------------------OBJ:V-N---------------------------+ +--------APPOS--------+ +--------------------MOD:V-ADV--------------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) MOD:V-ADV (appear,determining) OBJ:V-N (determining,prespore) Parse 30 +-----------SUBJ:V-N-----------+ +---------------------------OBJ:V-N---------------------------+ +--------APPOS--------+ +--------------------MOD:V-ADV--------------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) MOD:V-ADV (appear,determining) OBJ:V-N (determining,prespore) Parse 31 +-----------SUBJ:V-N-----------+ +---------------------------OBJ:V-N---------------------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +--------------------MOD:V-ADV--------------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) MOD:V-ADV (appear,determining) OBJ:V-N (determining,prespore) Parse 32 +-----------SUBJ:V-N-----------+ +---------------------------OBJ:V-N---------------------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +--------------------MOD:V-ADV--------------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) MOD:V-ADV (appear,determining) OBJ:V-N (determining,prespore) Parse 33 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) SUBJ:V-N (determining,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) COMP_of:N-N (development,prespore) Parse 34 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (development,differential) SUBJ:V-N (determining,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) COMP_of:N-N (development,prespore) Parse 35 +-----------SUBJ:V-N-----------+ +-----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) SUBJ:V-N (determining,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) COMP_of:N-N (development,prespore) Parse 36 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +-----------COMP_of:N-N----------+ | +--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) MOD:V-ADV (segregate,determining) COMP_of:N-N (development,prespore) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) MOD_ATT:N-N (cell,mother) Parse 37 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +-----------COMP_of:N-N----------+ | +--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) MOD:V-ADV (segregate,determining) COMP_of:N-N (development,prespore) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) MOD_ATT:N-N (cell,mother) Parse 38 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +-----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) MOD:V-ADV (segregate,determining) COMP_of:N-N (development,prespore) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) MOD_ATT:N-N (cell,mother) Parse 39 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +-----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) MOD:V-ADV (segregate,determining) COMP_of:N-N (development,prespore) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) MOD_ATT:N-N (cell,mother) Parse 40 +-----------------SUBJ:V-N-----------------+------------------------------OBJ:V-N-----------------------------+-----------COMP_of:N-N----------+ +--------APPOS--------+ | +--------SUBJ:V-N--------+ +-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +-COMP_at:V-N+ +-MOD:V-ADV-+----OBJ:V-N----+ | +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) APPOS (factors,GENEXXX) SUBJ:V-N (determining,septation) MOD_ATT:N-N (factors,sigma) MOD:V-ADV (determining,effectively) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) OBJ:V-N (segregate,development) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,differential) COMP_at:V-N (segregate,septation) COMP_of:N-N (development,prespore) Parse 41 +-----------------SUBJ:V-N-----------------+------------------------------OBJ:V-N-----------------------------+-----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------SUBJ:V-N--------+ +-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +-COMP_at:V-N+ +-MOD:V-ADV-+----OBJ:V-N----+ | +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) SUBJ:V-N (determining,septation) MOD_ATT:N-N (factors,sigma) MOD:V-ADV (determining,effectively) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) OBJ:V-N (segregate,development) COMP_of:N-N (development,cell) OBJ:V-N (determining,differential) COMP_at:V-N (segregate,septation) COMP_of:N-N (development,prespore) Parse 42 +---------------------------OBJ:V-N---------------------------+ +-----------SUBJ:V-N-----------+ | +----------------MOD_ATT:N-ADJ----------------+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . MOD_ATT:N-N (cell,mother) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (development,differential) SUBJ:V-N (determining,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (prespore,differential) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 43 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | +---------------------------OBJ:V-N---------------------------+ | +-----------SUBJ:V-N-----------+ | | +----------------MOD_ATT:N-ADJ----------------+ | +--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) MOD_ATT:N-ADJ (prespore,differential) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) MOD:V-ADV (segregate,determining) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD_ATT:N-ADJ (sigma,sporulation-specific) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) Parse 44 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | +---------------------------OBJ:V-N---------------------------+ | +-----------SUBJ:V-N-----------+ | | +----------------MOD_ATT:N-ADJ----------------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) MOD_ATT:N-ADJ (prespore,differential) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (cell,mother) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) MOD:V-ADV (segregate,determining) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) Parse 45 +-----------SUBJ:V-N-----------+ +---------------------------OBJ:V-N---------------------------+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) SUBJ:V-N (determining,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 46 +-----------SUBJ:V-N-----------+ +---------------------------OBJ:V-N---------------------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) MOD_ATT:N-ADJ (development,differential) SUBJ:V-N (determining,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 47 +-----------SUBJ:V-N-----------+ +---------------------------OBJ:V-N---------------------------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) OBJ:V-N (segregate,septation) SUBJ:V-N (determining,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) OBJ:V-N (determining,prespore) Parse 48 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +---------------------------OBJ:V-N---------------------------+ | +--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) MOD:V-ADV (segregate,determining) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD_ATT:N-ADJ (sigma,sporulation-specific) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) MOD_ATT:N-N (cell,mother) Parse 49 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +---------------------------OBJ:V-N---------------------------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+ | +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) MOD_ATT:N-ADJ (development,differential) MOD:V-ADV (segregate,determining) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) MOD_ATT:N-N (cell,mother) Parse 50 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +---------------------------OBJ:V-N---------------------------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | +--------------MOD:V-ADV--------------+-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+ | +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) MOD:V-ADV (segregate,determining) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) MOD_ATT:N-N (cell,mother) Parse 51 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +-----------COMP_of:N-N----------+ | +--------APPOS--------+ | | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) COMP_of:N-N (development,prespore) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) MOD_ATT:N-N (cell,mother) Parse 52 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +-----------COMP_of:N-N----------+ | +--------APPOS--------+ | | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-ADJ (development,differential) COMP_of:N-N (development,prespore) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) MOD_ATT:N-N (cell,mother) Parse 53 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +-----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) COMP_of:N-N (development,prespore) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) MOD_ATT:N-N (cell,mother) Parse 54 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +-----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-ADJ (development,differential) COMP_of:N-N (development,prespore) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) MOD_ATT:N-N (cell,mother) Parse 55 +-----------SUBJ:V-N-----------+ +------------------------------OBJ:V-N-----------------------------+-----------COMP_of:N-N----------+ +--------APPOS--------+ | | +--------SUBJ:V-N--------+ +-----COMP_of:N-N-----+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +COMP_to:V-V+-COMP_at:V-N+ +-MOD:V-ADV-+----OBJ:V-N----+ | +MOD_A+ | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . COMP_at:V-N (segregate,septation) SUBJ:V-N (appear,factors) MOD_ATT:N-N (cell,mother) APPOS (factors,GENEXXX) SUBJ:V-N (determining,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) MOD:V-ADV (determining,effectively) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,sporulation-specific) COMP_of:N-N (development,cell) OBJ:V-N (determining,differential) OBJ:V-N (segregate,development) COMP_of:N-N (development,prespore) Parse 56 +-----------SUBJ:V-N-----------+ +------------------------------OBJ:V-N-----------------------------+-----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ | | +--------SUBJ:V-N--------+ +-----COMP_of:N-N-----+ | | +MOD_AT+--APPOS--+ | +COMP_to:V-V+-COMP_at:V-N+ +-MOD:V-ADV-+----OBJ:V-N----+ | +MOD_A+ | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . COMP_at:V-N (segregate,septation) SUBJ:V-N (appear,factors) MOD_ATT:N-N (cell,mother) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) SUBJ:V-N (determining,septation) COMP_to:V-V (appear,segregate) MOD_ATT:N-N (factors,sigma) MOD:V-ADV (determining,effectively) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) OBJ:V-N (determining,differential) OBJ:V-N (segregate,development) COMP_of:N-N (development,prespore) Parse 57 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | +---------------------------OBJ:V-N---------------------------+ | +-----------SUBJ:V-N-----------+ | | +----------------MOD_ATT:N-ADJ----------------+ | +--------APPOS--------+ | | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) MOD_ATT:N-ADJ (prespore,differential) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD_ATT:N-ADJ (sigma,sporulation-specific) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) Parse 58 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | +---------------------------OBJ:V-N---------------------------+ | +-----------SUBJ:V-N-----------+ | | +----------------MOD_ATT:N-ADJ----------------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) MOD_ATT:N-ADJ (prespore,differential) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (cell,mother) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) Parse 59 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +---------------------------OBJ:V-N---------------------------+ | +--------APPOS--------+ | | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD_ATT:N-ADJ (sigma,sporulation-specific) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) MOD_ATT:N-N (cell,mother) Parse 60 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +---------------------------OBJ:V-N---------------------------+ | +--------APPOS--------+ | | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD_ATT:N-ADJ (sigma,sporulation-specific) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) MOD_ATT:N-N (cell,mother) Parse 61 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +---------------------------OBJ:V-N---------------------------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+--------SUBJ:V-N--------+ +MOD_ATT:N-AD+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) MOD_ATT:N-ADJ (development,differential) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) MOD_ATT:N-N (cell,mother) Parse 62 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ | +---------------------------OBJ:V-N---------------------------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | | +-----------OBJ:V-N----------+-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +---OBJ:V-N--+--------SUBJ:V-N--------+ +-MOD_ATT:N-N+ +MOD_A+ | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . SUBJ:V-N (segregate,Two) OBJ:V-N (segregate,septation) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) MOD_ATT:N-N (development,differential) OBJ:V-N (determining,development) SUBJ:V-N (determining,septation) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) APPOS (factors,GENEXXX) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) OBJ:V-N (determining,prespore) MOD_ATT:N-N (cell,mother) Parse 63 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ +------------------------------OBJ:V-N-----------------------------+-----------COMP_of:N-N----------+ | +--------APPOS--------+ | | +--------SUBJ:V-N--------+ +-----COMP_of:N-N-----+ | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | +MOD:+ +-COMP_at:V-N+ +-MOD:V-ADV-+----OBJ:V-N----+ | +MOD_A+ | | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . COMP_of:N-N (development,prespore) SUBJ:V-N (segregate,Two) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) SUBJ:V-N (determining,septation) OBJ:V-N (segregate,development) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) MOD:V-ADV (determining,effectively) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) MOD_ATT:N-ADJ (sigma,sporulation-specific) MOD:V-ADV (appear,to) OBJ:V-N (determining,differential) COMP_at:V-N (segregate,septation) Parse 64 +----------------------------------SUBJ:V-N---------------------------------+ +----------------------------OBJ:V-N----------------------------+ | | +-----------SUBJ:V-N-----------+ +------------------------------OBJ:V-N-----------------------------+-----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ | | +--------SUBJ:V-N--------+ +-----COMP_of:N-N-----+ | | | +MOD_AT+--APPOS--+ | +MOD:+ +-COMP_at:V-N+ +-MOD:V-ADV-+----OBJ:V-N----+ | +MOD_A+ | | | | | | | | | | | | | | | | | | Two sporulation-specific sigma factors , GENEXXX and GENEXXX , appear to segregate at septation , effectively determining the differential development of the mother cell and prespore . COMP_of:N-N (development,prespore) SUBJ:V-N (segregate,Two) SUBJ:V-N (appear,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,sporulation-specific) SUBJ:V-N (determining,septation) OBJ:V-N (segregate,development) OBJ:V-N (appear,Two) MOD_ATT:N-N (factors,sigma) MOD:V-ADV (determining,effectively) APPOS (factors,GENEXXX) MOD_ATT:N-N (cell,mother) COMP_of:N-N (development,cell) MOD:V-ADV (appear,to) OBJ:V-N (determining,differential) COMP_at:V-N (segregate,septation) PMID: 9004507-1 Sentence 28 In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . Parse 0 +---------------COMP_in:V_PASS-N--------------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) Parse 1 +---------------COMP_in:V_PASS-N--------------+----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,contrast) Parse 2 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (associated,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (associated,GENEXXX) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (implying,studies) Parse 3 +-----------------------------COMP_in:V_PASS-N-----------------------------+----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (associated,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (associated,GENEXXX) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (implying,contrast) Parse 4 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) Parse 5 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,contrast) SUBJ:V_PASS-N (associated,polymerase) Parse 6 +---------------COMP_in:V_PASS-N--------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_in:V_PASS-N (associated,contrast) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) MOD_ATT:N-ADJ (control,exclusive) Parse 7 +-----------------COMP_in:V-N-----------------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V-N (associated,contrast) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) Parse 8 +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) MOD_ATT:N-ADJ (control,exclusive) Parse 9 +---------------COMP_in:V_PASS-N--------------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:N-N (studies,GENEXXX) Parse 10 +---------------COMP_in:V_PASS-N--------------+----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_in:V_PASS-N (associated,contrast) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 11 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (associated,GENEXXX) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) MOD_ATT:N-ADJ (control,exclusive) Parse 12 +-----------------COMP_in:V-N-----------------+----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V-N (associated,contrast) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 13 +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 14 +---------------COMP_in:V_PASS-N--------------+------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:N-N (contrast,GENEXXX) Parse 15 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,GENEXXX) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) Parse 16 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------------COMP_with:N-N---------------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_with:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,studies) SUBJ:V_PASS-N (associated,polymerase) Parse 17 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (associated,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:N-N (studies,GENEXXX) Parse 18 +-----------------------------COMP_in:V_PASS-N-----------------------------+----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (associated,GENEXXX) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 19 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (control,exclusive) Parse 20 +------------------------COMP_by:N-N-----------------------+ +---------------COMP_in:V_PASS-N--------------+----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:N-N (contrast,GENEXXX) Parse 21 +-----------------------------COMP_in:V_PASS-N-----------------------------+----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,GENEXXX) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 22 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) Parse 23 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------------COMP_with:N-N---------------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_with:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,contrast) SUBJ:V_PASS-N (associated,polymerase) Parse 24 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (associated,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:N-N (contrast,GENEXXX) Parse 25 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) COMP_by:N-N (studies,GENEXXX) Parse 26 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,contrast) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (control,exclusive) Parse 27 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 28 +------------------------COMP_by:N-N-----------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (associated,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:N-N (contrast,GENEXXX) Parse 29 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) COMP_by:N-N (contrast,GENEXXX) Parse 30 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ +------------------------COMP_by:N-N-----------------------+ +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,contrast) SUBJ:V_PASS-N (associated,polymerase) COMP_by:N-N (contrast,GENEXXX) Parse 31 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) Parse 32 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 33 +-----------------COMP_in:V-N-----------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V-N (associated,contrast) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 34 +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:N-N (control,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) Parse 35 +---------------COMP_in:V_PASS-N--------------+ | +---------OBJ:V-N--------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_by:V-N (implying,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) Parse 36 +-----------------COMP_in:V-N-----------------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V-N (associated,contrast) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 37 +-----------------COMP_in:V-N-----------------+----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V-N (associated,contrast) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 38 +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 39 +---------------COMP_with:N-N---------------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:N-N (polymerase,GENEXXX) COMP_by:V-N (implying,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,studies) MOD_ATT:N-ADJ (control,exclusive) Parse 40 +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (studies,GENEXXX) Parse 41 +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (associated,GENEXXX) COMP_by:N-N (control,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 42 +---------------COMP_in:V_PASS-N--------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_by:V-N (implying,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) OBJ:V-N (with,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) Parse 43 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V-N (associated,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 44 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------------COMP_with:N-N---------------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_with:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,studies) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (control,exclusive) Parse 45 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_by:V-N (implying,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) Parse 46 +-----------------COMP_in:V-N-----------------+------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V-N (associated,contrast) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 47 +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 48 +---------------COMP_with:N-N---------------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:N-N (polymerase,GENEXXX) COMP_by:V-N (implying,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 49 +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,studies) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 50 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 51 +-----------------------------COMP_in:V_PASS-N-----------------------------+----------SUBJ:V-N----------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V-N (associated,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 52 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 53 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------------COMP_with:N-N---------------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_with:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,studies) SUBJ:V_PASS-N (associated,polymerase) COMP_by:N-N (studies,GENEXXX) Parse 54 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------------COMP_with:N-N---------------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_with:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,contrast) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (control,exclusive) Parse 55 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_by:V-N (implying,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) Parse 56 +------------------------COMP_by:N-N-----------------------+ +-----------------COMP_in:V-N-----------------+----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V-N (associated,contrast) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 57 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) COMP_by:V-N (implying,GENEXXX) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) Parse 58 +------------------------COMP_by:N-N-----------------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (associated,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 59 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 60 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 61 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 62 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------------COMP_with:N-N---------------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_with:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,studies) SUBJ:V_PASS-N (associated,polymerase) COMP_by:N-N (contrast,GENEXXX) Parse 63 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) COMP_by:V-N (implying,GENEXXX) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,contrast) Parse 64 +------------------------COMP_by:N-N-----------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 65 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ | +----------------COMP_with:V_PASS-N----------------+ | +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 66 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ | +---------------COMP_with:N-N---------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) COMP_with:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,contrast) SUBJ:V_PASS-N (associated,polymerase) COMP_by:N-N (contrast,GENEXXX) Parse 67 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ +------------------------COMP_by:N-N-----------------------+ +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 68 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +COMP_with:V_P+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,either) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) COMP_by:V-N (implying,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,studies) Parse 69 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +COMP_with:V_P+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,either) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) COMP_by:V-N (implying,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,contrast) Parse 70 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:N-N (control,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) Parse 71 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 72 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (studies,GENEXXX) Parse 73 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:N-N (control,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 74 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 75 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 76 +----------------------COMP_with:V_PASS-N---------------------+ +------------------------COMP_by:N-N-----------------------+ +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 77 +---------------COMP_in:V_PASS-N--------------+ | +---------OBJ:V-N--------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (control,GENEXXX) Parse 78 +-----------------COMP_in:V-N-----------------+ | +---------OBJ:V-N--------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (associated,contrast) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) COMP_by:V-N (implying,GENEXXX) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) Parse 79 +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:N-N (control,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 80 +---------------COMP_with:N-N---------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:N-N (polymerase,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:N-N (control,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) Parse 81 +---------OBJ:V-N--------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) Parse 82 +---------------COMP_in:V_PASS-N--------------+ | +---------OBJ:V-N--------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (studies,GENEXXX) Parse 83 +---------------COMP_in:V_PASS-N--------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) OBJ:V-N (with,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) COMP_by:N-N (control,GENEXXX) Parse 84 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (control,GENEXXX) Parse 85 +-----------------COMP_in:V-N-----------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (associated,contrast) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) COMP_by:V-N (implying,GENEXXX) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 86 +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (studies,GENEXXX) Parse 87 +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) SUBJ:V-N (associated,polymerase) COMP_by:N-N (control,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 88 +---------------COMP_with:N-N---------------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:N-N (polymerase,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,studies) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (studies,GENEXXX) Parse 89 +---------------COMP_with:N-N---------------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:N-N (polymerase,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) COMP_by:N-N (control,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 90 +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) Parse 91 +---------------COMP_in:V_PASS-N--------------+ | +---------OBJ:V-N--------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (contrast,GENEXXX) Parse 92 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) COMP_by:V-N (implying,GENEXXX) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) Parse 93 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (studies,GENEXXX) Parse 94 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) COMP_by:N-N (control,GENEXXX) Parse 95 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:N-N (control,GENEXXX) Parse 96 +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 97 +---------------COMP_with:N-N---------------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:N-N (polymerase,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,studies) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 98 +---------------COMP_in:V_PASS-N--------------+------------------------COMP_by:N-N-----------------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) OBJ:V-N (with,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) COMP_by:N-N (contrast,GENEXXX) Parse 99 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) COMP_by:V-N (implying,GENEXXX) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 100 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) COMP_by:V-N (implying,GENEXXX) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) Parse 101 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (contrast,GENEXXX) Parse 102 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:N-N (studies,GENEXXX) Parse 103 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:N-N (control,GENEXXX) Parse 104 +------------------------COMP_by:N-N-----------------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 105 +------------------------COMP_by:N-N-----------------------+ +---------------COMP_with:N-N---------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) COMP_with:N-N (polymerase,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 106 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) COMP_by:V-N (implying,GENEXXX) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 107 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) COMP_by:N-N (contrast,GENEXXX) Parse 108 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:N-N (contrast,GENEXXX) Parse 109 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:N-N (contrast,GENEXXX) Parse 110 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +COMP_with:V_P+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,either) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,studies) COMP_by:N-N (control,GENEXXX) Parse 111 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +COMP_with:V_P+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,either) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,studies) COMP_by:N-N (studies,GENEXXX) Parse 112 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +COMP_with:V_P+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,either) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,contrast) COMP_by:N-N (control,GENEXXX) Parse 113 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) COMP_by:V-N (implying,GENEXXX) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) Parse 114 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +COMP_with:V_P+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,either) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,studies) COMP_by:N-N (contrast,GENEXXX) Parse 115 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) COMP_by:V-N (implying,GENEXXX) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 116 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +COMP_with:V_P+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,either) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,contrast) COMP_by:N-N (contrast,GENEXXX) Parse 117 +-----------------------COMP_by:V_PASS-N----------------------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) Parse 118 +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_by:V-N (implying,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) Parse 119 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:N-N (control,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 120 +------------COMP_with:V_PASS-N------------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (implying,studies) Parse 121 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (studies,GENEXXX) Parse 122 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:N-N (control,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 123 +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (implying,contrast) Parse 124 +----------------------COMP_with:V_PASS-N---------------------+ +----------------COMP_with:V_PASS-N----------------+ | +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 125 +----------------------COMP_with:V_PASS-N---------------------+ +------------------------COMP_by:N-N-----------------------+ +----------------COMP_with:V_PASS-N----------------+ | +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 126 +-----------------COMP_in:V-N-----------------+ | +---------OBJ:V-N--------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (associated,contrast) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 127 +---------OBJ:V-N--------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) MOD_ATT:N-ADJ (control,exclusive) Parse 128 +-----------------COMP_in:V-N-----------------+ | +---------OBJ:V-N--------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (associated,contrast) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 129 +-----------------COMP_in:V-N-----------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (associated,contrast) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 130 +---------OBJ:V-N--------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,either) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) Parse 131 +---------OBJ:V-N--------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (studies,GENEXXX) Parse 132 +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 133 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 134 +-----------------COMP_in:V-N-----------------+ | +---------OBJ:V-N--------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (associated,contrast) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 135 +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,either) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 136 +---------OBJ:V-N--------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (contrast,GENEXXX) Parse 137 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 138 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 139 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 140 +-----------------COMP_in:V-N-----------------+------------------------COMP_by:N-N-----------------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (associated,contrast) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 141 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +-------------------COMP_with:N-N------------------+ | | +-------------COMP_with:N-N-------------+ | | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) Parse 142 +------------------------COMP_by:N-N-----------------------+ +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) COMP_by:N-N (contrast,GENEXXX) Parse 143 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +---------OBJ:V-N--------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 144 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 145 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 146 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +-------------------COMP_with:N-N------------------+ | | +-------------COMP_with:N-N-------------+ | +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 147 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ | +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 148 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +------------COMP_with:V_PASS-N------------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 149 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 150 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 151 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 152 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 153 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 154 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) COMP_to:N-N (contrast,studies) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 155 +-----------------------COMP_by:V_PASS-N----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) MOD_ATT:N-ADJ (control,exclusive) Parse 156 +-----------------------COMP_by:V_PASS-N----------------------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (studies,GENEXXX) Parse 157 +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 158 +-----------------------COMP_by:V_PASS-N----------------------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) Parse 159 +-----------------------COMP_by:V_PASS-N----------------------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (contrast,GENEXXX) Parse 160 +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 161 +------------------------COMP_by:N-N-----------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V_PASS-N (associated,either) SUBJ:V-N (implying,contrast) COMP_by:N-N (contrast,GENEXXX) Parse 162 +------------COMP_with:V_PASS-N------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,studies) MOD_ATT:N-ADJ (control,exclusive) Parse 163 +------------COMP_with:V_PASS-N------------+ +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) Parse 164 +------------COMP_with:V_PASS-N------------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,studies) COMP_by:N-N (studies,GENEXXX) Parse 165 +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) SUBJ:V-N (implying,contrast) MOD_ATT:N-ADJ (control,exclusive) Parse 166 +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) Parse 167 +------------COMP_with:V_PASS-N------------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,studies) COMP_by:N-N (contrast,GENEXXX) Parse 168 +------------------------COMP_by:N-N-----------------------+ +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,contrast) COMP_by:N-N (contrast,GENEXXX) Parse 169 +---------OBJ:V-N--------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 170 +---------OBJ:V-N--------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 171 +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 172 +------------------COMP_to:N-N------------------+ +---------------COMP_in:V_PASS-N--------------+ +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_in:V_PASS-N (associated,contrast) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) Parse 173 +-------------------COMP_with:N-N------------------+ +-------------COMP_with:N-N-------------+ | +---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 174 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +-------------------COMP_with:N-N------------------+ | | +-------------COMP_with:N-N-------------+ | | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 175 +---------OBJ:V-N--------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 176 +-------------------COMP_with:N-N------------------+ +-------------COMP_with:N-N-------------+ | +----------SUBJ:V-N----------+---------COMP_by:V-N---------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) COMP_by:V-N (implying,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 177 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +-------------------COMP_with:N-N------------------+ | | +-------------COMP_with:N-N-------------+ | | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 178 +------------------COMP_to:N-N------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+ +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (associated,GENEXXX) COMP_to:N-N (contrast,control) COMP_with:V_PASS-N (associated,GENEXXX) MOD_ATT:N-N (control,studies) MOD_ATT:N-ADJ (control,exclusive) Parse 179 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +-------------------COMP_with:N-N------------------+ | | +-------------COMP_with:N-N-------------+ | +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 180 +------------------------COMP_by:N-N-----------------------+ +---------OBJ:V-N--------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,either) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 181 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +---------------COMP_in:V_PASS-N--------------+ +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,GENEXXX) COMP_by:N-N (contrast,GENEXXX) Parse 182 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +-------------------COMP_with:N-N------------------+ | | +-------------COMP_with:N-N-------------+ | +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 183 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ +------------------COMP_to:N-N------------------+ +----------------COMP_with:V_PASS-N----------------+ | | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (control,exclusive) Parse 184 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +-----------------------------COMP_in:V_PASS-N-----------------------------+ +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (associated,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) COMP_with:V_PASS-N (associated,GENEXXX) MOD_ATT:N-N (control,studies) COMP_by:N-N (contrast,GENEXXX) Parse 185 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +-------------------COMP_with:N-N------------------+ +------------------------COMP_by:N-N-----------------------+ | +-------------COMP_with:N-N-------------+ | +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 186 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ +----------------------COMP_with:V_PASS-N---------------------+ +------------------COMP_to:N-N------------------+ | +----------------COMP_with:V_PASS-N----------------+ | | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) COMP_by:N-N (contrast,GENEXXX) Parse 187 +-----------------------COMP_by:V_PASS-N----------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 188 +-----------------------COMP_by:V_PASS-N----------------------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 189 +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 190 +-----------------------COMP_by:V_PASS-N----------------------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 191 +------------------------COMP_by:N-N-----------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 192 +------------COMP_with:V_PASS-N------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 193 +------------COMP_with:V_PASS-N------------+ +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (studies,GENEXXX) Parse 194 +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 195 +------------COMP_with:V_PASS-N------------+ +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 196 +------------------------COMP_by:N-N-----------------------+ +------------COMP_with:V_PASS-N------------+ +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) COMP_to:N-N (contrast,studies) OBJ:V-N (implying,control) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 197 +-------------------COMP_with:N-N------------------+ +-------------COMP_with:N-N-------------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) SUBJ:V-N (implying,studies) COMP_by:N-N (control,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 198 +------------------COMP_to:N-N------------------+ +-----------------COMP_in:V-N-----------------+ +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) COMP_in:V-N (associated,contrast) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 199 +------------------COMP_to:N-N------------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,GENEXXX) COMP_by:N-N (control,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) Parse 200 +-------------------COMP_with:N-N------------------+ +-------------COMP_with:N-N-------------+ | +-------------COMP_by:N-N-------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (studies,GENEXXX) Parse 201 +-------------------COMP_with:N-N------------------+ +-------------COMP_with:N-N-------------+ | +----------SUBJ:V-N----------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) COMP_by:N-N (control,GENEXXX) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 202 +------------------COMP_to:N-N------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+ +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+----------COMP_with:V-N---------+ | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V-N (associated,GENEXXX) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 203 +-------------------COMP_with:N-N------------------+ +-------------COMP_with:N-N-------------+ | +------------------------COMP_by:N-N-----------------------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+SUBJ:V-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) SUBJ:V-N (implying,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 204 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ | +---------------COMP_with:N-N---------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) COMP_with:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (control,exclusive) Parse 205 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +-----------------COMP_in:V-N-----------------+ +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) COMP_in:V-N (associated,contrast) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 206 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +-------COMP_with:V_PASS-N-------+ | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+--COMP_with:V_PASS-N-+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 207 +-------------------COMP_with:N-N------------------+ +------------------------COMP_by:N-N-----------------------+ +-------------COMP_with:N-N-------------+ | +----------SUBJ:V-N----------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+ | | +-----COMP_to:N-N----+ +------OBJ:V-N-----+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (implying,control) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,studies) SUBJ:V-N (implying,contrast) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 208 +-----------------------------COMP_in:V_PASS-N-----------------------------+ +----------------------COMP_with:V_PASS-N---------------------+ +------------------COMP_to:N-N------------------+ +----------------COMP_with:V_PASS-N----------------+ | | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 209 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +-----------------------------COMP_in:V_PASS-N-----------------------------+ +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+----------COMP_with:V-N---------+ | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V-N (associated,GENEXXX) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 210 +------------------------COMP_by:N-N-----------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ | | +---------------COMP_with:N-N---------------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) COMP_with:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:N-N (polymerase,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) COMP_by:N-N (contrast,GENEXXX) Parse 211 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ +----------------------COMP_with:V_PASS-N---------------------+ +------------------COMP_to:N-N------------------+ | +----------------COMP_with:V_PASS-N----------------+ | | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 212 +----------------------COMP_with:V_PASS-N---------------------+ +------------------COMP_to:N-N------------------+ +----------------COMP_with:V_PASS-N----------------+ | | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:N-N (control,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) Parse 213 +------------------------COMP_by:N-N-----------------------+ +----------------------COMP_with:V_PASS-N---------------------+ +------------------COMP_to:N-N------------------+ | +----------------COMP_with:V_PASS-N----------------+ | | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 214 +---------------COMP_in:V_PASS-N--------------+------------------COMP_to:N-N------------------+ | +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (control,GENEXXX) Parse 215 +------------------COMP_to:N-N------------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:N-N (control,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 216 +------------------COMP_to:N-N------------------+ +---------------COMP_with:N-N---------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-N (control,studies) COMP_with:N-N (polymerase,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) COMP_by:N-N (control,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) Parse 217 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ | +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (control,GENEXXX) Parse 218 +------------------------COMP_by:N-N-----------------------+ +---------------COMP_in:V_PASS-N--------------+------------------COMP_to:N-N------------------+ | | +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ | +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) COMP_in:V_PASS-N (associated,contrast) OBJ:V-N (with,GENEXXX) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (contrast,GENEXXX) Parse 219 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ +------------COMP_with:V_PASS-N------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:N-N (control,GENEXXX) Parse 220 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+----------COMP_with:V-N---------+ | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+----COMP_with:V-N----+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) COMP_with:V-N (associated,GENEXXX) COMP_with:V-N (associated,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 221 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +---------------COMP_with:N-N---------------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+----------COMP_with:N-N---------+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-N (control,studies) COMP_with:N-N (polymerase,GENEXXX) COMP_with:N-N (polymerase,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 222 +------------------------COMP_by:N-N-----------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ | | +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (contrast,GENEXXX) Parse 223 +------------------------COMP_by:N-N-----------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ | +------------COMP_with:V_PASS-N------------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_in:V-N (can,conditions) SUBJ:V_PASS-N (associated,polymerase) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:N-N (contrast,GENEXXX) Parse 224 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +COMP_with:V_P+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,either) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:N-N (control,GENEXXX) Parse 225 +------------------------COMP_by:N-N-----------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ | +-----------------------COMP_by:V_PASS-N----------------------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +COMP_with:V_P+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_with:V_PASS-N (associated,either) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:N-N (contrast,GENEXXX) Parse 226 +----------------------COMP_with:V_PASS-N---------------------+ +------------------COMP_to:N-N------------------+ +----------------COMP_with:V_PASS-N----------------+ | | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:N-N (control,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 227 +------------------------COMP_by:N-N-----------------------+ +----------------------COMP_with:V_PASS-N---------------------+ +------------------COMP_to:N-N------------------+ | +----------------COMP_with:V_PASS-N----------------+ | | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_with:V_PASS-N (transcribed,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) Parse 228 +-----------------COMP_in:V-N-----------------+------------------COMP_to:N-N------------------+ | +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (associated,contrast) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 229 +------------------COMP_to:N-N------------------+ +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,either) MOD_ATT:N-ADJ (control,exclusive) Parse 230 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ | +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 231 +------------------------COMP_by:N-N-----------------------+ +-----------------COMP_in:V-N-----------------+------------------COMP_to:N-N------------------+ | | +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_in:V-N (associated,contrast) OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 232 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (contrast,GENEXXX) Parse 233 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ +------------COMP_with:V_PASS-N------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 234 +------------------------COMP_by:N-N-----------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ | | +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 235 +------------------------COMP_by:N-N-----------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ | +------------COMP_with:V_PASS-N------------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) SUBJ:V-N (associated,polymerase) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 236 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) MOD_ATT:N-N (control,implying) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (control,GENEXXX) Parse 237 +------------------------COMP_by:N-N-----------------------+ +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------COMP_to:N-N------------------+ | +-----------------------COMP_by:V_PASS-N----------------------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (studies,previous) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) SUBJ:V-N (associated,polymerase) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 238 +------------------COMP_to:N-N------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,either) MOD_ATT:N-ADJ (control,exclusive) Parse 239 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +-----------------------COMP_by:V_PASS-N----------------------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+COMP_with:V_P+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_with:V_PASS-N (associated,either) COMP_by:N-N (contrast,GENEXXX) Parse 240 +------------------COMP_to:N-N------------------+ +------------COMP_with:V_PASS-N------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) MOD_ATT:N-ADJ (control,exclusive) Parse 241 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +------------COMP_with:V_PASS-N------------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-COMP_by:V_PASS-N+ +---------OBJ:V-N--------+ | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+ +MOD_AT+SUBJ:V_PAS+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) SUBJ:V_PASS-N (associated,polymerase) MOD_ATT:N-ADJ (studies,previous) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:N-N (contrast,GENEXXX) Parse 242 +------------------COMP_to:N-N------------------+ +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (with,GENEXXX) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 243 +-----------------------------COMP_in:V_PASS-N-----------------------------+ | +-------------------COMP_with:N-N------------------+ +------------------COMP_to:N-N------------------+ | +-------------COMP_with:N-N-------------+ | | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 244 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +---------OBJ:V-N--------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+ +---OBJ:V-N---+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+COMP_with:V-N+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_with:V-N (associated,either) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 245 +-----------------------------COMP_in:V_PASS-N-----------------------------+------------------------COMP_by:N-N-----------------------+ | +-------------------COMP_with:N-N------------------+ +------------------COMP_to:N-N------------------+ | | +-------------COMP_with:N-N-------------+ | | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ | | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) COMP_in:V_PASS-N (transcribed,contrast) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) OBJ:V-N (associated,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 246 +------------------COMP_to:N-N------------------+ +-----------------------COMP_by:V_PASS-N----------------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 247 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +-----------------------COMP_by:V_PASS-N----------------------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+COMP_with:V-N+ | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_by:V_PASS-N (transcribed,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V-N (associated,either) MOD_ATT:N-ADJ (control,exclusive) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 248 +------------------COMP_to:N-N------------------+ +------------COMP_with:V_PASS-N------------+ | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . COMP_by:N-N (control,GENEXXX) OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) OBJ:V-N (with,GENEXXX) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 249 +------------------------COMP_by:N-N-----------------------+ +------------------COMP_to:N-N------------------+ | +------------COMP_with:V_PASS-N------------+ | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ | +-----OBJ:V-N-----+ +---------OBJ:V-N--------+ | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ +---OBJ:V-N---+ | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) OBJ:V-N (with,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) MOD_ATT:N-ADJ (studies,previous) SUBJ:V_PASS-N (transcribed,gene) COMP_with:V_PASS-N (transcribed,either) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (control,exclusive) COMP_to:N-N (contrast,control) MOD_ATT:N-N (control,studies) SUBJ:V-N (associated,polymerase) COMP_by:V_PASS-N (transcribed,RNA) COMP_by:N-N (contrast,GENEXXX) Parse 250 +-------------------COMP_with:N-N------------------+ +------------------COMP_to:N-N------------------+ +-------------COMP_with:N-N-------------+ | | +--------MOD_ATT:N-N-------+ +----COMP_in:V-N----+ +-----OBJ:V-N-----+ | | | | +----MOD_ATT:N-N---+ | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+COMP_by:N-+ | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) MOD_ATT:N-N (control,studies) COMP_by:N-N (control,GENEXXX) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) Parse 251 +------------------------COMP_by:N-N-----------------------+ +-------------------COMP_with:N-N------------------+ +------------------COMP_to:N-N------------------+ | +-------------COMP_with:N-N-------------+ | | +--------MOD_ATT:N-N-------+ | +----COMP_in:V-N----+ +-----OBJ:V-N-----+ | | | | +----MOD_ATT:N-N---+ | | +-SUBJ:V_PASS-N-+COMP_by:V_+ +-SUBJ:V-N-+ | | | +MOD_ATT:+ | +MOD_ATT:+ | | | | | | | | | | | | | | | | | In some conditions , this gene can be transcribed by RNA polymerase associated with either GENEXXX or GENEXXX , in contrast to previous studies implying exclusive control by GENEXXX . OBJ:V-N (associated,RNA) COMP_with:N-N (RNA,GENEXXX) COMP_in:V-N (can,conditions) MOD_ATT:N-N (control,implying) COMP_to:N-N (contrast,control) MOD_ATT:N-ADJ (studies,previous) COMP_with:N-N (RNA,GENEXXX) SUBJ:V_PASS-N (transcribed,gene) SUBJ:V-N (associated,polymerase) MOD_ATT:N-N (control,studies) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (control,exclusive) COMP_by:N-N (contrast,GENEXXX) PMID: 9139908-1 Sentence 29 However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . Parse 0 +-------------------------------------MOD:V-ADV-------------------------------------+ +--MOD:V-ADV-+------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:V-N (predominates,salt) MOD:V-ADV (predominates,at) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD_ATT:N-ADJ (transcription,dependent) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-N (salt,high) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) OBJ:V-N (have,optima) Parse 1 +-------------------------------------MOD:V-ADV-------------------------------------+ +------OBJ:V-N------+ | +--MOD:V-ADV-+ +MOD_ATT:N-AD+----------------------OBJ:V-N----------------------+ | +---COMP_at:V-N--+ | +SUBJ+ | +MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:V-N (predominates,salt) MOD:V-ADV (predominates,at) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD_ATT:N-ADJ (transcription,dependent) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-N (salt,high) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) OBJ:V-N (have,optima) Parse 2 +--------SUBJ:V-N--------+----------------------------COMP_at:V-N----------------------------+ | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+ | +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-N (dependent,GENEXXX) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (salt,high) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 3 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +--COMP_at:V-N--+ +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (salt,high) Parse 4 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +--COMP_at:V-N--+ +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 5 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ | | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ +---COMP_at:V-N--+ | | | +MOD_AT+ +--OBJ:V-N-+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD:ADJ-N (dependent,GENEXXX) OBJ:V-N (optima,that) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) OBJ:V-N (have,salt) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (salt,high) Parse 6 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +--COMP_at:V-N--+ +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD:ADJ-ADV (dependent,that) MOD_ATT:N-ADJ (salt,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (salt,high) Parse 7 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +MOD_ATT:N-AD+ +--COMP_at:V-N--+ | | +SUBJ+ | +MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (salt,high) Parse 8 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +MOD_ATT:N-AD+ +--COMP_at:V-N--+ | | +SUBJ+ | +MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 9 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +MOD_ATT:N-AD+ +--COMP_at:V-N--+ | | +SUBJ+ | +MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 10 +--------------------------------------MOD:V-ADV-------------------------------------+----------------------------------COMP_at:V-N----------------------------------+ | +------OBJ:V-N------+ +--COMP_at:V-N--+ | | +SUBJ+ +MOD_AT+MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD:ADJ-ADV (dependent,that) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (salt,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 11 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +MOD_ATT:N-AD+ +--COMP_at:V-N--+ | | +SUBJ+ | +MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD:ADJ-ADV (dependent,that) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 12 +--------SUBJ:V-N--------+----------------------------COMP_at:V-N----------------------------+ | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+ | +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-N (dependent,GENEXXX) COMP_at:V-N (optima,salt) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 13 +--------SUBJ:V-N--------+----------------------------COMP_at:V-N----------------------------+ | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+ | +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-N (dependent,GENEXXX) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (salt,low) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 14 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ | | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ +---COMP_at:V-N--+ | | | +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (salt,high) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) Parse 15 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ | | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ +---COMP_at:V-N--+ | | | +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,high) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) Parse 16 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ | | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ +---COMP_at:V-N--+ | | | +MOD_AT+ | +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) MOD:ADJ-ADV (dependent,that) OBJ:V-N (have,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,high) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) Parse 17 +-------------------------------------MOD:V-ADV-------------------------------------+ +--MOD:V-ADV-+------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:V-N (predominates,salt) MOD:V-ADV (predominates,at) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-ADJ (transcription,dependent) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) OBJ:V-N (have,optima) Parse 18 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ | | | | +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (salt,high) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) COMP_at:V-N (predominates,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (transcription,dependent) Parse 19 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ | | | | +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) COMP_at:V-N (predominates,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-ADJ (transcription,dependent) Parse 20 +-------------------------------------MOD:V-ADV-------------------------------------+ +--MOD:V-ADV-+------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:V-N (predominates,salt) MOD:V-ADV (predominates,at) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-ADV (dependent,that) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-N (salt,high) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) OBJ:V-N (have,optima) Parse 21 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ | | | | +MOD_AT+ | +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (salt,high) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) MOD:ADJ-ADV (dependent,that) OBJ:V-N (have,salt) COMP_at:V-N (predominates,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) Parse 22 +------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ +--------SUBJ:V-N--------+----------------------------COMP_at:V-N----------------------------+ | | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+ | | +--MOD:V-ADV-+ +MOD_AT+ | +--MOD:ADJ-ADV--+MOD_ATT:N-A+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (optima,salt) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (salt,high) MOD:ADJ-ADV (dependent,that) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (optima,transcription) Parse 23 +----------------------------------------------------------------------COMP_at:V-N----------------------------------------------------------------------+ +-------------------------------------MOD:V-ADV-------------------------------------+ | +--MOD:V-ADV-+------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | | | +SUBJ+ +MOD_AT+MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD:ADJ-N (dependent,GENEXXX) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,high) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (have,salt) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 24 +--------SUBJ:V-N--------+ | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+---------COMP_at:N-N--------+ +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | +--MOD:ADJ-ADV--+MOD_ATT:N-A+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . COMP_at:N-N (transcription,salt) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-ADV (dependent,that) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 25 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ | | | +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +---COMP_at:V-N--+ | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (salt,high) Parse 26 +--------------------------------------MOD:V-ADV-------------------------------------+----------------------------------COMP_at:V-N----------------------------------+ | +------OBJ:V-N------+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ | | +SUBJ+ +MOD_AT+MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (salt,high) Parse 27 +--------------------------------------MOD:V-ADV-------------------------------------+----------------------------------COMP_at:V-N----------------------------------+ | +------OBJ:V-N------+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ | | +SUBJ+ +MOD_AT+MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 28 +----------------------------------------------------------------------COMP_at:V-N----------------------------------------------------------------------+ +-------------------------------------MOD:V-ADV-------------------------------------+ | +--MOD:V-ADV-+------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | +-----MOD_ATT:N-N----+ | | +SUBJ+ +MOD_AT+MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,high) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (have,salt) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 29 +--------SUBJ:V-N--------+----------------------------COMP_at:V-N----------------------------+ | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+ | +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-N (dependent,GENEXXX) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (salt,high) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 30 +-------------------------MOD_POST:N-ADJ------------------------+ +--MOD:V-ADV-+------OBJ:V-N------+----------------------OBJ:V-N----------------------+ +---------------------------COMP_at:ADJ-N---------------------------+ | +SUBJ+ +MOD_AT+MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:ADJ-N (low,salt) MOD:V-ADV (predominates,at) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,high) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_POST:N-ADJ (optima,low) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 31 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 32 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ | | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | | | +MOD_AT+ +--OBJ:V-N-+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,that) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) OBJ:V-N (have,salt) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (transcription,dependent) Parse 33 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ | | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +---COMP_at:V-N--+ | | | +MOD_AT+ +--OBJ:V-N-+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD:ADJ-N (dependent,GENEXXX) OBJ:V-N (optima,that) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (optima,they) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) OBJ:V-N (have,salt) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (salt,high) Parse 34 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ | | | +MOD_ATT:N-AD+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ | +MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (salt,high) Parse 35 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ | | | +MOD_ATT:N-AD+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ | +MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (salt,high) Parse 36 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD:ADJ-ADV (dependent,that) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 37 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ | | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | | | +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,high) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) Parse 38 +------OBJ:V-N------+-------------------------MOD_POST:N-ADJ------------------------+ +--MOD:V-ADV-+ +MOD_ATT:N-AD+----------------------OBJ:V-N----------------------+ +---------------------------COMP_at:ADJ-N---------------------------+ | +SUBJ+ | +MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:ADJ-N (low,salt) MOD:V-ADV (predominates,at) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD:ADJ-ADV (dependent,that) MOD:V-ADV (have,However) MOD_ATT:N-N (salt,high) MOD_POST:N-ADJ (optima,low) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 39 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ | | | +MOD_ATT:N-AD+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ | +MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD:ADJ-ADV (dependent,that) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 40 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ | | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 41 +--------------------------------------MOD:V-ADV-------------------------------------+----------------------------------COMP_at:V-N----------------------------------+ | +------OBJ:V-N------+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ | | +SUBJ+ +MOD_AT+MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD:ADJ-ADV (dependent,that) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (salt,high) Parse 42 +-------------------------------------MOD:V-ADV-------------------------------------+ +------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | +--MOD:V-ADV-+ +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ | | +---COMP_at:V-N--+ | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:V-N (predominates,salt) MOD:V-ADV (predominates,at) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) OBJ:V-N (have,optima) Parse 43 +------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ +----------------------------COMP_at:V-N----------------------------+ | +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | | +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (optima,salt) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (optima,transcription) Parse 44 +----------------------------------------------------------------------COMP_at:V-N----------------------------------------------------------------------+ +-------------------------------------MOD:V-ADV-------------------------------------+ | | +----------------------OBJ:V-N----------------------+ | | +--MOD:V-ADV-+------OBJ:V-N------+ +-----MOD_ATT:N-N----+ | | | | +SUBJ+ +MOD_AT+MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-N (salt,high) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (have,salt) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (transcription,GENEXXX) Parse 45 +----------------------------------------------------------------------COMP_at:V-N----------------------------------------------------------------------+ +-------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | | +--MOD:V-ADV-+ +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ | | | | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-N (salt,high) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (have,salt) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (transcription,GENEXXX) Parse 46 +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+---------COMP_at:N-N--------+ +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . COMP_at:N-N (transcription,salt) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (salt,high) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 47 +-------------------------MOD_POST:N-ADJ------------------------+ +----------------------OBJ:V-N----------------------+ | +--MOD:V-ADV-+------OBJ:V-N------+ +-----MOD_ATT:N-N----+ | +---------------------------COMP_at:ADJ-N---------------------------+ | +SUBJ+ +MOD_AT+MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:ADJ-N (low,salt) MOD:V-ADV (predominates,at) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-N (salt,high) MOD_POST:N-ADJ (optima,low) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 48 +-------------------------MOD_POST:N-ADJ------------------------+---------------------------COMP_at:ADJ-N---------------------------+ +--MOD:V-ADV-+------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | +-----MOD_ATT:N-N----+ | | +SUBJ+ +MOD_AT+MOD_A+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD_ATT:N-N (transcription,GENEXXX) COMP_at:ADJ-N (low,salt) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-N (salt,high) MOD_POST:N-ADJ (optima,low) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 49 +--------SUBJ:V-N--------+----------------------------COMP_at:V-N----------------------------+ | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+ | +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-N (dependent,GENEXXX) COMP_at:V-N (optima,salt) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 50 +-------------------------MOD_POST:N-ADJ------------------------+ +------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | +--MOD:V-ADV-+ +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ | +---------------------------COMP_at:ADJ-N---------------------------+ | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:ADJ-N (low,salt) MOD:V-ADV (predominates,at) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (have,However) MOD_POST:N-ADJ (optima,low) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 51 +--------SUBJ:V-N--------+----------------------------COMP_at:V-N----------------------------+ | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+ | +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | +--MOD:ADJ-ADV--+MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-ADV (dependent,that) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (salt,high) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 52 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ | | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | | | +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (salt,high) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) Parse 53 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ | | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +---COMP_at:V-N--+ | | | +MOD_AT+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (salt,high) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) Parse 54 +------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+---------COMP_at:N-N--------+ | +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) COMP_at:V-N (optima,salt) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:N-N (transcription,salt) OBJ:V-N (optima,transcription) Parse 55 +------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+---------COMP_at:N-N--------+ | +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) COMP_at:V-N (optima,salt) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-ADJ (salt,high) COMP_at:N-N (transcription,salt) OBJ:V-N (optima,transcription) Parse 56 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ | | | | +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (salt,high) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) COMP_at:V-N (predominates,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) Parse 57 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +---OBJ:V-N---+ | +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ | | | | +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (predominates,transcription) MOD:V-ADV (predominates,However) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) COMP_at:V-N (predominates,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-ADJ (transcription,dependent) Parse 58 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ | | | | +MOD_AT+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (salt,high) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) COMP_at:V-N (predominates,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) Parse 59 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ | | | | +MOD_AT+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (predominates,salt) OBJ:V-N (have,salt) COMP_at:V-N (predominates,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-ADJ (transcription,dependent) Parse 60 +-------------------------------------MOD:V-ADV-------------------------------------+ +--MOD:V-ADV-+------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (predominates,at) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (optima,salt) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-ADV (dependent,that) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) OBJ:V-N (have,optima) Parse 61 +------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ +--------SUBJ:V-N--------+----------------------------COMP_at:V-N----------------------------+ | | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+ | +-----MOD_ATT:N-N----+ | +--MOD:V-ADV-+ +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (optima,salt) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (optima,transcription) Parse 62 +------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ +--------SUBJ:V-N--------+----------------------------COMP_at:V-N----------------------------+ | | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+ | +-----MOD_ATT:N-N----+ | +--MOD:V-ADV-+ +MOD_AT+ | +MOD:ADJ-+MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (optima,salt) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (optima,transcription) Parse 63 +----------------------------------------------------------------------COMP_at:V-N----------------------------------------------------------------------+ +-------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ | | +--MOD:V-ADV-+ +MOD_ATT:N-AD+----------------------OBJ:V-N----------------------+ | +-----MOD_ATT:N-N----+ | | +SUBJ+ | +MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,high) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (predominates,transcription) MOD:ADJ-ADV (dependent,that) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (have,salt) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 64 +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+---------COMP_at:N-N--------+ +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ +MOD:ADJ-+MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . COMP_at:N-N (transcription,salt) SUBJ:V-N (predominates,transcription) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (salt,high) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 65 +--------SUBJ:V-N--------+ | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+---------COMP_at:N-N--------+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | +--MOD:ADJ-ADV--+MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) COMP_at:N-N (transcription,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-ADV (dependent,that) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 66 +-------------------------------------MOD:V-ADV-------------------------------------+ | +----------------------OBJ:V-N----------------------+ | +--MOD:V-ADV-+------OBJ:V-N------+ +-----MOD_ATT:N-N----+ | | +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (predominates,at) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (optima,salt) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) OBJ:V-N (have,optima) Parse 67 +-------------------------------------MOD:V-ADV-------------------------------------+ +------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | +--MOD:V-ADV-+ +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ | | +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (predominates,at) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (optima,salt) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-N (salt,high) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) OBJ:V-N (have,optima) Parse 68 +--------SUBJ:V-N--------+------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+---------COMP_at:N-N--------+ +-----MOD_ATT:N-N----+ | +--MOD:V-ADV-+ +MOD_AT+ | +--MOD:ADJ-ADV--+MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) COMP_at:V-N (optima,salt) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-ADV (dependent,that) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-ADJ (salt,low) COMP_at:N-N (transcription,salt) OBJ:V-N (optima,transcription) Parse 69 +--------SUBJ:V-N--------+------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ | +---OBJ:V-N---+ +----------------OBJ:V-N---------------+---------COMP_at:N-N--------+ +-----MOD_ATT:N-N----+ | +--MOD:V-ADV-+ +MOD_AT+ | +--MOD:ADJ-ADV--+MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) COMP_at:V-N (optima,salt) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) MOD:ADJ-ADV (dependent,that) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-ADJ (salt,high) COMP_at:N-N (transcription,salt) OBJ:V-N (optima,transcription) Parse 70 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ | | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (salt,high) Parse 71 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ | | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | | | +MOD_AT+ +--OBJ:V-N-+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,that) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (optima,they) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) OBJ:V-N (have,salt) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (salt,high) Parse 72 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ | | | +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (salt,high) Parse 73 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ | | | +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 74 +--------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+ | | | +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 75 +------OBJ:V-N------+-------------------------MOD_POST:N-ADJ------------------------+---------------------------COMP_at:ADJ-N---------------------------+ +--MOD:V-ADV-+ +MOD_ATT:N-AD+----------------------OBJ:V-N----------------------+ | +-----MOD_ATT:N-N----+ | | +SUBJ+ | +MOD_A+ +--MOD:ADJ-ADV--+MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD_ATT:N-N (transcription,GENEXXX) COMP_at:ADJ-N (low,salt) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD:ADJ-ADV (dependent,that) MOD:V-ADV (have,However) MOD_ATT:N-N (salt,high) MOD_POST:N-ADJ (optima,low) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 76 +--------------------------------------MOD:V-ADV-------------------------------------+----------------------------------COMP_at:V-N----------------------------------+ | +------OBJ:V-N------+ +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ | | +SUBJ+ +MOD_AT+MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (salt,low) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (salt,distinct) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 77 +--------------------------------------MOD:V-ADV-------------------------------------+----------------------------------COMP_at:V-N----------------------------------+ | +------OBJ:V-N------+ +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ | | +SUBJ+ +MOD_AT+MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (optima,salt) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 78 +--------------------------------------MOD:V-ADV-------------------------------------+ | +--------SUBJ:V-N--------+ +----------------------------------COMP_at:V-N----------------------------------+ | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ +--COMP_at:V-N--+ +-----MOD_ATT:N-N----+ | | | | +MOD_AT+ +--OBJ:V-N-+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-ADJ (salt,high) SUBJ:V-N (predominates,transcription) OBJ:V-N (optima,that) MOD:V-ADV (predominates,However) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (optima,they) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) OBJ:V-N (have,salt) COMP_at:V-N (predominates,salt) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (transcription,dependent) Parse 79 +------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ +----------------------------COMP_at:V-N----------------------------+ | +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +-----MOD_ATT:N-N----+ | +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (optima,salt) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (optima,transcription) Parse 80 +------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ +----------------------------COMP_at:V-N----------------------------+ | +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +-----MOD_ATT:N-N----+ | +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (optima,salt) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (optima,transcription) Parse 81 +------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ +----------------------------COMP_at:V-N----------------------------+ | +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +-----MOD_ATT:N-N----+ | +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (optima,salt) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) COMP_at:V-N (optima,salt) MOD_ATT:N-ADJ (salt,low) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (optima,transcription) Parse 82 +----------------------------------------------------------------------COMP_at:V-N----------------------------------------------------------------------+ +-------------------------------------MOD:V-ADV-------------------------------------+ | +------OBJ:V-N------+----------------------OBJ:V-N----------------------+ | | +--MOD:V-ADV-+ +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ | | +-----MOD_ATT:N-N----+ | | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-N (salt,high) MOD_ATT:N-ADJ (optima,distinct) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (have,salt) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (transcription,GENEXXX) Parse 83 +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+---------COMP_at:N-N--------+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) COMP_at:N-N (transcription,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (salt,high) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,low) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 84 +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+---------COMP_at:N-N--------+ +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) COMP_at:N-N (transcription,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (salt,high) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 85 +----------------------------COMP_at:V-N----------------------------+ +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+ | +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-N (salt,low) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (optima,salt) COMP_at:V-N (predominates,salt) OBJ:V-N (optima,transcription) Parse 86 +-------------------------------------MOD:V-ADV-------------------------------------+ | +----------------------OBJ:V-N----------------------+ | +--MOD:V-ADV-+------OBJ:V-N------+ +-----MOD_ATT:N-N----+ | | +-----MOD_ATT:N-N----+ +---COMP_at:V-N--+ | +SUBJ+ +MOD_AT+MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) COMP_at:V-N (predominates,salt) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (predominates,at) SUBJ:V-N (predominates,transcription) MOD_ATT:N-N (optima,salt) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-N (salt,high) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) OBJ:V-N (have,optima) Parse 87 +----------------------------------------------------------------------COMP_at:V-N----------------------------------------------------------------------+ +-------------------------------------MOD:V-ADV-------------------------------------+ | | +----------------------OBJ:V-N----------------------+ | | +--MOD:V-ADV-+------OBJ:V-N------+ +-----MOD_ATT:N-N----+ | | +-----MOD_ATT:N-N----+ | | +SUBJ+ +MOD_AT+MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD:V-ADV (have,low) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-N (salt,high) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) COMP_at:V-N (have,salt) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) MOD_ATT:N-N (transcription,GENEXXX) Parse 88 +-------------------------MOD_POST:N-ADJ------------------------+ +------OBJ:V-N------+----------------------OBJ:V-N----------------------+ +---------------------------COMP_at:ADJ-N---------------------------+ +--MOD:V-ADV-+ +MOD_ATT:N-AD+ +-----MOD_ATT:N-N----+ | | +-----MOD_ATT:N-N----+ | | +SUBJ+ | +MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD_ATT:N-N (transcription,GENEXXX) COMP_at:ADJ-N (low,salt) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (have,However) MOD_POST:N-ADJ (optima,low) MOD_ATT:N-ADJ (optima,distinct) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) Parse 89 +------------------------------------------------------------COMP_at:V-N------------------------------------------------------------+ +--------SUBJ:V-N--------+----------------OBJ:V-N---------------+ | | +---OBJ:V-N---+ | +-----MOD_ATT:N-N----+---------COMP_at:N-N--------+ +-----MOD_ATT:N-N----+ | +--MOD:V-ADV-+ +MOD_AT+ | | +MOD_ATT:N-A+ +MOD+ | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . MOD_ATT:N-N (transcription,GENEXXX) SUBJ:V-N (predominates,transcription) COMP_at:V-N (optima,salt) MOD_ATT:N-N (salt,high) SUBJ:V-N (optima,they) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-N (transcription,GENEXXX) OBJ:V-N (have,salt) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_ATT:N-ADJ (transcription,dependent) MOD_ATT:N-ADJ (salt,low) COMP_at:N-N (transcription,salt) OBJ:V-N (optima,transcription) Parse 90 +-------------------------MOD_POST:N-ADJ------------------------+ +----------------------OBJ:V-N----------------------+ +---------------------------COMP_at:ADJ-N---------------------------+ +--MOD:V-ADV-+------OBJ:V-N------+ +-----MOD_ATT:N-N----+ | | +-----MOD_ATT:N-N----+ | | +SUBJ+ +MOD_AT+MOD_A+ | +MOD_ATT:N-A+--SUBJ:V-N--+MOD:V-A+ | | +MOD_ATT:N-A+--SUBJ:V-N--+ +MOD_+ | | | | | | | | | | | | | | | | | | However , they have distinct salt optima such that GENEXXX dependent transcription predominates at low salt while GENEXXX dependent transcription predominates at high salt . OBJ:V-N (predominates,optima) MOD_ATT:N-N (transcription,GENEXXX) COMP_at:ADJ-N (low,salt) MOD:V-ADV (predominates,at) MOD_ATT:N-N (optima,salt) SUBJ:V-N (predominates,transcription) MOD_ATT:N-ADJ (salt,high) MOD_ATT:N-N (transcription,GENEXXX) MOD:V-ADV (have,However) MOD_ATT:N-ADJ (salt,distinct) MOD_POST:N-ADJ (optima,low) MOD_ATT:N-ADJ (transcription,dependent) SUBJ:V-N (predominates,transcription) SUBJ:V-N (have,they) MOD_ATT:N-ADJ (transcription,dependent) OBJ:V-N (have,optima) PMID: 9244562-1 Sentence 30 Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . Parse 0 +---------------------------------------------------COMP_with:V-N--------------------------------------------------+ +---------------------------------------------COMP_with:V-N--------------------------------------------+ | +----------------------------------------COMP_with:V-N---------------------------------------+ | | | +---------------MOD_ATT:N-ADJ--------------+ | +---------MOD_ATT:N-ADJ--------+ | +--------COMP_with:V-N-------+------COMP_of:N-N------+ +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ | +MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-ADJ (GENEXXX,mother-cell-specific) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) MOD_ATT:N-ADJ (GENEXXX,mother-cell-specific) COMP_of:N-N (activation,prespore-) COMP_with:V-N (coincides,GENEXXX) MOD_ATT:N-ADJ (factors,mother-cell-specific) COMP_with:V-N (coincides,GENEXXX) COMP_with:V-N (coincides,factors) Parse 1 +---------------------------------------------------COMP_with:V-N--------------------------------------------------+ +---------------------------------------------COMP_with:V-N--------------------------------------------+ | +----------------------------------------COMP_with:V-N---------------------------------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) COMP_of:N-N (activation,prespore-) COMP_with:V-N (coincides,GENEXXX) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_with:V-N (coincides,GENEXXX) COMP_with:V-N (coincides,factors) Parse 2 +---------------------------------------------------COMP_with:V-N--------------------------------------------------+ +---------------------------------------------COMP_with:V-N--------------------------------------------+ | +----------------------------------------COMP_with:V-N---------------------------------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ | +MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) COMP_of:N-N (activation,prespore-) COMP_with:V-N (coincides,GENEXXX) MOD_ATT:N-ADJ (factors,mother-cell-specific) COMP_with:V-N (coincides,GENEXXX) COMP_with:V-N (coincides,factors) Parse 3 +-------------------------------------COMP_of:N-N-------------------------------------+ +-------------------------------COMP_of:N-N-------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | | +---------------MOD_ATT:N-ADJ--------------+ | +---------MOD_ATT:N-ADJ--------+ | +--------COMP_with:V-N-------+------COMP_of:N-N------+ +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ | +MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-ADJ (GENEXXX,mother-cell-specific) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) MOD_ATT:N-ADJ (GENEXXX,mother-cell-specific) MOD_ATT:N-ADJ (factors,mother-cell-specific) COMP_of:N-N (activation,GENEXXX) COMP_of:N-N (activation,GENEXXX) COMP_of:N-N (activation,prespore-) COMP_of:N-N (activation,factors) Parse 4 +-------------------------------------COMP_of:N-N-------------------------------------+ +-------------------------------COMP_of:N-N-------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) COMP_of:N-N (activation,GENEXXX) COMP_of:N-N (activation,GENEXXX) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,prespore-) COMP_of:N-N (activation,factors) Parse 5 +-------------------------------------COMP_of:N-N-------------------------------------+ +-------------------------------COMP_of:N-N-------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ | +MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) MOD_ATT:N-ADJ (factors,mother-cell-specific) COMP_of:N-N (activation,GENEXXX) COMP_of:N-N (activation,GENEXXX) COMP_of:N-N (activation,prespore-) COMP_of:N-N (activation,factors) Parse 6 +-------------------------------------COMP_of:N-N-------------------------------------+ +-------------------------------COMP_of:N-N-------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | | +--------------MOD_ATT:N-ADJ-------------+ | | | +--------COMP_with:V-N-------+ | +----------MOD_ATT:N-ADJ---------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | | +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (sigma,early) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) COMP_of:N-N (activation,GENEXXX) MOD_ATT:N-ADJ (sigma,prespore-) COMP_of:N-N (activation,GENEXXX) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,factors) Parse 7 +-------------------------------------COMP_of:N-N-------------------------------------+ +-------------------------------COMP_of:N-N-------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | | +-----------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_with:V-N-------+ | +----------MOD_ATT:N-ADJ---------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | | +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (sigma,prespore-) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,GENEXXX) COMP_of:N-N (activation,GENEXXX) MOD_ATT:N-ADJ (factors,early) COMP_of:N-N (activation,factors) Parse 8 +-------------------------------------COMP_of:N-N-------------------------------------+ +-------------------------------COMP_of:N-N-------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | | +-----------------MOD_ATT:N-ADJ-----------------+ | | | | +-------------MOD_ATT:N-ADJ-------------+ | | +--------COMP_with:V-N-------+ | | +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | | | +MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-ADJ (factors,prespore-) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (factors,early) MOD_ATT:N-ADJ (factors,mother-cell-specific) COMP_of:N-N (activation,GENEXXX) COMP_of:N-N (activation,GENEXXX) COMP_of:N-N (activation,factors) Parse 9 +-------------------------------------COMP_of:N-N-------------------------------------+ +-------------------------------COMP_of:N-N-------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | | +-----------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) COMP_of:N-N (activation,GENEXXX) COMP_of:N-N (activation,GENEXXX) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,prespore-) MOD_ATT:N-ADJ (factors,early) COMP_of:N-N (activation,factors) Parse 10 +---------------------------------------------------COMP_with:V-N--------------------------------------------------+ +---------------------------------------------COMP_with:V-N--------------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) COMP_of:N-N (activation,factors) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) COMP_with:V-N (coincides,GENEXXX) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,prespore-) COMP_with:V-N (coincides,GENEXXX) Parse 11 +---------------------------------------------------COMP_with:V-N--------------------------------------------------+ +---------------------------------------------COMP_with:V-N--------------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ | +MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) COMP_of:N-N (activation,factors) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) COMP_with:V-N (coincides,GENEXXX) MOD_ATT:N-ADJ (factors,mother-cell-specific) COMP_of:N-N (activation,prespore-) COMP_with:V-N (coincides,GENEXXX) Parse 12 +---------------------------------------------------COMP_with:V-N--------------------------------------------------+ +---------------------------------------------COMP_with:V-N--------------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | | +--------------MOD_ATT:N-ADJ-------------+ | | | +--------COMP_with:V-N-------+ | +----------MOD_ATT:N-ADJ---------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | | +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (sigma,early) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) COMP_with:V-N (coincides,GENEXXX) MOD_ATT:N-ADJ (sigma,prespore-) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_with:V-N (coincides,GENEXXX) COMP_of:N-N (activation,factors) Parse 13 +---------------------------------------------------COMP_with:V-N--------------------------------------------------+ +---------------------------------------------COMP_with:V-N--------------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | | +-----------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_with:V-N-------+ | +----------MOD_ATT:N-ADJ---------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | | +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (sigma,prespore-) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_with:V-N (coincides,GENEXXX) COMP_with:V-N (coincides,GENEXXX) MOD_ATT:N-ADJ (factors,early) COMP_of:N-N (activation,factors) Parse 14 +---------------------------------------------------COMP_with:V-N--------------------------------------------------+ +---------------------------------------------COMP_with:V-N--------------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | | +-----------------MOD_ATT:N-ADJ-----------------+ | | | | | +-------------MOD_ATT:N-ADJ-------------+ | | +--------COMP_with:V-N-------+ | | +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | | | +MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-ADJ (factors,prespore-) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (factors,early) COMP_with:V-N (coincides,GENEXXX) MOD_ATT:N-ADJ (factors,mother-cell-specific) COMP_with:V-N (coincides,GENEXXX) COMP_of:N-N (activation,factors) Parse 15 +---------------------------------------------------COMP_with:V-N--------------------------------------------------+ +---------------------------------------------COMP_with:V-N--------------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | | +-----------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) COMP_of:N-N (activation,factors) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) COMP_with:V-N (coincides,GENEXXX) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,prespore-) COMP_with:V-N (coincides,GENEXXX) MOD_ATT:N-ADJ (factors,early) Parse 16 +----------------------------------------APPOS----------------------------------------+ +----------------------------------APPOS----------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) APPOS (activation,GENEXXX) SUBJ:V-N (coincides,Commitment) APPOS (activation,GENEXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,prespore-) COMP_of:N-N (activation,factors) Parse 17 +--------------------------COMP_of:N-N--------------------------+ | +--------------MOD_ATT:N-ADJ-------------+ | +--------COMP_with:V-N-------+ | +----------MOD_ATT:N-ADJ---------+ +--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (sigma,mother-cell-specific) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,prespore-) MOD_ATT:N-ADJ (sigma,early) COMP_of:N-N (activation,factors) Parse 18 +----------------------------------------APPOS----------------------------------------+ +----------------------------------APPOS----------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ | +MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) APPOS (activation,GENEXXX) SUBJ:V-N (coincides,Commitment) APPOS (activation,GENEXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) MOD_ATT:N-ADJ (factors,mother-cell-specific) COMP_of:N-N (activation,prespore-) COMP_of:N-N (activation,factors) Parse 19 +--------------------------COMP_of:N-N--------------------------+ | +-----------------MOD_ATT:N-ADJ-----------------+ +--------COMP_with:V-N-------+ | +----------MOD_ATT:N-ADJ---------+ +--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | | | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,early) MOD_ATT:N-ADJ (sigma,prespore-) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,factors) Parse 20 +--------------------------COMP_of:N-N--------------------------+ | +-----------------MOD_ATT:N-ADJ-----------------+ | | +-------------MOD_ATT:N-ADJ-------------+ +--------COMP_with:V-N-------+ | | +----MOD_ATT:N-ADJ---+--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | | | | +MOD_AT+--APPOS--+ | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (factors,mother-cell-specific) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,prespore-) MOD_ATT:N-N (factors,sigma) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,early) COMP_of:N-N (activation,factors) Parse 21 +----------------------------------------APPOS----------------------------------------+ +----------------------------------APPOS----------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | | +--------------MOD_ATT:N-ADJ-------------+ | | | +--------COMP_with:V-N-------+ | +----------MOD_ATT:N-ADJ---------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | | +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (sigma,early) SUBJ:V-N (coincides,Commitment) APPOS (activation,GENEXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (sigma,prespore-) MOD_ATT:N-ADJ (sigma,mother-cell-specific) APPOS (activation,GENEXXX) COMP_of:N-N (activation,factors) Parse 22 +----------------------------------------APPOS----------------------------------------+ +----------------------------------APPOS----------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | | +-----------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_with:V-N-------+ | +----------MOD_ATT:N-ADJ---------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | | +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (sigma,prespore-) SUBJ:V-N (coincides,Commitment) APPOS (activation,GENEXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (sigma,mother-cell-specific) APPOS (activation,GENEXXX) MOD_ATT:N-ADJ (factors,early) COMP_of:N-N (activation,factors) Parse 23 +----------------------------------------APPOS----------------------------------------+ +----------------------------------APPOS----------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | | +-----------------MOD_ATT:N-ADJ-----------------+ | | | | +-------------MOD_ATT:N-ADJ-------------+ | | +--------COMP_with:V-N-------+ | | +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | | | +MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) SUBJ:V-N (coincides,Commitment) APPOS (activation,GENEXXX) MOD_ATT:N-ADJ (factors,prespore-) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (factors,early) MOD_ATT:N-ADJ (factors,mother-cell-specific) APPOS (activation,GENEXXX) COMP_of:N-N (activation,factors) Parse 24 +----------------------------------------APPOS----------------------------------------+ +----------------------------------APPOS----------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | | +-----------------MOD_ATT:N-ADJ-----------------+ | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) APPOS (activation,GENEXXX) SUBJ:V-N (coincides,Commitment) APPOS (activation,GENEXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (prespore-,early) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,prespore-) MOD_ATT:N-ADJ (factors,early) COMP_of:N-N (activation,factors) Parse 25 +----------------------------------------COMP_with:V-N---------------------------------------+ +--------COMP_with:V-N-------+------COMP_of:N-N------+ +--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (prespore-,early) MOD_ATT:N-ADJ (sigma,mother-cell-specific) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) COMP_of:N-N (activation,prespore-) COMP_with:V-N (coincides,factors) Parse 26 +----------------------------------------COMP_with:V-N---------------------------------------+ +--------COMP_with:V-N-------+------COMP_of:N-N------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ | +MOD_AT+--APPOS--+ | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (factors,mother-cell-specific) MOD_ATT:N-ADJ (prespore-,early) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) COMP_of:N-N (activation,prespore-) COMP_with:V-N (coincides,factors) Parse 27 +--------------------------COMP_of:N-N--------------------------+ +--------COMP_with:V-N-------+------COMP_of:N-N------+ +--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (prespore-,early) MOD_ATT:N-ADJ (sigma,mother-cell-specific) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) COMP_of:N-N (activation,prespore-) COMP_of:N-N (activation,factors) Parse 28 +--------------------------COMP_of:N-N--------------------------+ +--------COMP_with:V-N-------+------COMP_of:N-N------+ +----MOD_ATT:N-ADJ---+--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ | +MOD_AT+--APPOS--+ | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (factors,mother-cell-specific) MOD_ATT:N-ADJ (prespore-,early) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) COMP_of:N-N (activation,prespore-) COMP_of:N-N (activation,factors) Parse 29 +--------------------------COMP_of:N-N--------------------------+ | +-----------------MOD_ATT:N-ADJ-----------------+ +--------COMP_with:V-N-------+------COMP_of:N-N------+ +--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | +MOD_ATT+ +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD_ATT:N-ADJ (factors,early) MOD:V-ADV (coincides,approximately) MOD_ATT:N-ADJ (prespore-,early) MOD_ATT:N-ADJ (sigma,mother-cell-specific) APPOS (factors,GENEXXX) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) COMP_of:N-N (activation,prespore-) COMP_of:N-N (activation,factors) Parse 30 +-------------------------------------------OBJ:V-N-------------------------------------------+ +-------------------------------------OBJ:V-N-------------------------------------+ | +--------------------------------OBJ:V-N--------------------------------+ | | | +-----------------------COMP_of:N-N----------------------+ | | | +--------COMP_with:V-N-------+------COMP_of:N-N------+ | | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | +MOD_ATT+ +MOD_ATT:N-ADJ+ | | | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) MOD_ATT:N-ADJ (prespore-,early) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (sigma,mother-cell-specific) SUBJ:V-N (coincides,Commitment) OBJ:V-N (with,GENEXXX) COMP_of:N-N (activation,sigma) COMP_of:N-N (activation,prespore-) Parse 31 +-------------------------------------------OBJ:V-N-------------------------------------------+ +-------------------------------------OBJ:V-N-------------------------------------+ | +--------------------------------OBJ:V-N--------------------------------+ | | | +-----------------------COMP_of:N-N----------------------+ | | | | | +--------------MOD_ATT:N-ADJ-------------+ | | | +--------COMP_with:V-N-------+ | +----------MOD_ATT:N-ADJ---------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | | | | +MOD_ATT:N-ADJ+ | | | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) OBJ:V-N (with,GENEXXX) COMP_of:N-N (activation,sigma) MOD_ATT:N-ADJ (sigma,mother-cell-specific) SUBJ:V-N (coincides,Commitment) OBJ:V-N (with,GENEXXX) MOD_ATT:N-ADJ (sigma,prespore-) MOD_ATT:N-ADJ (sigma,early) Parse 32 +--------------------------------OBJ:V-N--------------------------------+ | +-----------------------COMP_of:N-N----------------------+ | +--------COMP_with:V-N-------+------COMP_of:N-N------+ | +--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | | +MOD_ATT+ +MOD_ATT:N-ADJ+ +--APPOS--+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (prespore-,early) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,sigma) COMP_of:N-N (activation,prespore-) Parse 33 +--------------------------------OBJ:V-N--------------------------------+ | +-----------------------COMP_of:N-N----------------------+ | | | +--------------MOD_ATT:N-ADJ-------------+ | +--------COMP_with:V-N-------+ | +----------MOD_ATT:N-ADJ---------+ +--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | | | | +MOD_ATT:N-ADJ+ +--APPOS--+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,prespore-) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,mother-cell-specific) MOD_ATT:N-ADJ (sigma,early) COMP_of:N-N (activation,sigma) Parse 34 +-------------------------------------------OBJ:V-N-------------------------------------------+ +-------------------------------------OBJ:V-N-------------------------------------+ | +--------------------------------OBJ:V-N--------------------------------+ | | | +------------------------MOD_ATT:N-ADJ------------------------+ | +------------------MOD_ATT:N-ADJ------------------+ | | | +---------------MOD_ATT:N-ADJ--------------+ | +-------------MOD_ATT:N-ADJ-------------+ | | | | +---------MOD_ATT:N-ADJ--------+ | +--------COMP_with:V-N-------+ | +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +--COMP_of:N-N--+ | | +MOD_AT+ | | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD_ATT:N-ADJ (GENEXXX,prespore-) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) OBJ:V-N (with,GENEXXX) COMP_of:N-N (activation,early) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-ADJ (factors,prespore-) OBJ:V-N (with,GENEXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (GENEXXX,mother-cell-specific) MOD_ATT:N-ADJ (factors,mother-cell-specific) MOD_ATT:N-ADJ (GENEXXX,mother-cell-specific) MOD_ATT:N-ADJ (GENEXXX,prespore-) Parse 35 +-------------------------------------------OBJ:V-N-------------------------------------------+ +-------------------------------------OBJ:V-N-------------------------------------+ | +--------------------------------OBJ:V-N--------------------------------+ | | +--------COMP_with:V-N-------+ +----------MOD_ATT:N-ADJ---------+ | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +--COMP_of:N-N--+ | +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) OBJ:V-N (with,GENEXXX) COMP_of:N-N (activation,early) SUBJ:V-N (coincides,Commitment) OBJ:V-N (with,GENEXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (sigma,prespore-) MOD_ATT:N-ADJ (sigma,mother-cell-specific) Parse 36 +-------------------------------------------OBJ:V-N-------------------------------------------+ +-------------------------------------OBJ:V-N-------------------------------------+ | +--------------------------------OBJ:V-N--------------------------------+ | | | +-------------MOD_ATT:N-ADJ-------------+ | | +--------COMP_with:V-N-------+ | +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +--COMP_of:N-N--+ | | +MOD_AT+ | | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) OBJ:V-N (with,GENEXXX) COMP_of:N-N (activation,early) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-ADJ (factors,prespore-) OBJ:V-N (with,GENEXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (factors,mother-cell-specific) Parse 37 +-------------------------------------------OBJ:V-N-------------------------------------------+ +-------------------------------------OBJ:V-N-------------------------------------+ | +--------------------------------OBJ:V-N--------------------------------+ | | +------------OBJ:V-N------------+ | | | +--------COMP_with:V-N-------+ | | | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +--COMP_of:N-N--+ | +MOD_ATT:N-ADJ+MOD_AT+ | | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) OBJ:V-N (with,prespore-) OBJ:V-N (with,GENEXXX) OBJ:V-N (with,GENEXXX) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (sigma,mother-cell-specific) COMP_of:N-N (activation,early) Parse 38 +-------------------------------------------OBJ:V-N-------------------------------------------+ +-------------------------------------OBJ:V-N-------------------------------------+ | +--------------------------------OBJ:V-N--------------------------------+ | | +------------OBJ:V-N------------+ | | | +--------COMP_with:V-N-------+ | +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +--COMP_of:N-N--+ | | +MOD_AT+ | | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) OBJ:V-N (with,prespore-) OBJ:V-N (with,GENEXXX) OBJ:V-N (with,GENEXXX) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (factors,mother-cell-specific) COMP_of:N-N (activation,early) Parse 39 +-------------------------------------------OBJ:V-N-------------------------------------------+ +-------------------------------------OBJ:V-N-------------------------------------+ | +--------------------------------OBJ:V-N--------------------------------+ | | | +---------------MOD_ATT:N-ADJ--------------+ +------------OBJ:V-N------------+ +---------MOD_ATT:N-ADJ--------+ | +--------COMP_with:V-N-------+ | +----MOD_ATT:N-ADJ---+ | | +-SUBJ:V-N-+-MOD:V-ADV-+ | +--COMP_of:N-N--+ | | +MOD_AT+ | | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) OBJ:V-N (with,prespore-) OBJ:V-N (with,GENEXXX) OBJ:V-N (with,GENEXXX) SUBJ:V-N (coincides,Commitment) MOD_ATT:N-ADJ (GENEXXX,mother-cell-specific) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (GENEXXX,mother-cell-specific) MOD_ATT:N-ADJ (factors,mother-cell-specific) COMP_of:N-N (activation,early) Parse 40 +--------------------------------OBJ:V-N--------------------------------+ +--------COMP_with:V-N-------+ +----------MOD_ATT:N-ADJ---------+ +--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | +--COMP_of:N-N--+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) MOD_ATT:N-ADJ (sigma,mother-cell-specific) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) COMP_of:N-N (activation,early) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (sigma,prespore-) Parse 41 +--------------------------------OBJ:V-N--------------------------------+ | +-------------MOD_ATT:N-ADJ-------------+ +--------COMP_with:V-N-------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | +--COMP_of:N-N--+ | | +MOD_AT+--APPOS--+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) MOD_ATT:N-ADJ (factors,mother-cell-specific) APPOS (factors,GENEXXX) MOD_ATT:N-ADJ (factors,prespore-) MOD_ATT:N-N (factors,sigma) COMP_of:N-N (activation,early) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) Parse 42 +--------------------------------OBJ:V-N--------------------------------+ +------------OBJ:V-N------------+ | +--------COMP_with:V-N-------+ | +--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | +--COMP_of:N-N--+ | +MOD_ATT:N-ADJ+MOD_AT+--APPOS--+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) OBJ:V-N (with,prespore-) MOD_ATT:N-ADJ (sigma,mother-cell-specific) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) COMP_of:N-N (activation,early) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) Parse 43 +--------------------------------OBJ:V-N--------------------------------+ +------------OBJ:V-N------------+ | +--------COMP_with:V-N-------+ | +----MOD_ATT:N-ADJ---+--------APPOS--------+ +-SUBJ:V-N-+-MOD:V-ADV-+ | +--COMP_of:N-N--+ | | +MOD_AT+--APPOS--+ | | | | | | | | | | | | | Commitment coincides approximately with activation of the early prespore- and mother-cell-specific sigma factors , GENEXXX and GENEXXX . COMP_with:V-N (coincides,activation) MOD:V-ADV (coincides,approximately) OBJ:V-N (with,factors) MOD_ATT:N-ADJ (factors,mother-cell-specific) OBJ:V-N (with,prespore-) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) COMP_of:N-N (activation,early) SUBJ:V-N (coincides,Commitment) APPOS (factors,GENEXXX) PMID: 9271869-1 Sentence 31 Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . Parse 0 +-----------------------OBJ:V-N-----------------------+----------COMP_during:V-N---------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) COMP_after:V_PASS-N (induced,conditions) COMP_during:V-N (contributes,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (promoter,upstream) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 1 +-----------------------OBJ:V-N-----------------------+----------COMP_during:V-N---------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V-N (contributes,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (promoter,upstream) MOD_PRED:N-ADJ (promoter,induced) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 2 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 3 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 4 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_to:V_PASS-N (involved,level) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 5 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_PRED:N-ADJ (promoter,induced) COMP_to:V_PASS-N (involved,level) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 6 +-----------------------OBJ:V-N-----------------------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-ADJ (promoter,upstream) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 7 +-----------------------OBJ:V-N-----------------------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_ATT:N-ADJ (promoter,upstream) MOD_PRED:N-ADJ (promoter,induced) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 8 +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:V_PASS-N (involved,level) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 9 +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:V_PASS-N (involved,level) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 10 +-------------------APPOS------------------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V_PASS-N (induced,promoter) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:N-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 11 +-------------------APPOS------------------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_during:N-N (level,growth) COMP_after:ADJ-N (induced,conditions) APPOS (initiation,promoter) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 12 +-------------------APPOS------------------+---------------COMP_during:N-N---------------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V_PASS-N (induced,promoter) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:N-N (promoter,growth) APPOS (initiation,promoter) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 13 +-------------------APPOS------------------+---------------COMP_during:N-N---------------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:ADJ-N (induced,conditions) COMP_during:N-N (promoter,growth) APPOS (initiation,promoter) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 14 +-----------------------OBJ:V-N-----------------------+ | +--------MOD_ATT:N-N-------+ +----------COMP_during:V-N---------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) COMP_after:V_PASS-N (induced,conditions) COMP_during:V-N (contributes,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 15 +-----------------------OBJ:V-N-----------------------+ | +--------MOD_ATT:N-N-------+ +----------COMP_during:V-N---------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V-N (contributes,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 16 +-----------------------OBJ:V-N-----------------------+----------COMP_during:V-N---------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) COMP_after:V_PASS-N (induced,conditions) COMP_during:V-N (contributes,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD_ATT:N-ADJ (level,basal) Parse 17 +-----------------------OBJ:V-N-----------------------+----------COMP_during:V-N---------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V-N (contributes,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_PRED:N-ADJ (promoter,induced) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD_ATT:N-ADJ (level,basal) Parse 18 +-------------------APPOS------------------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+---------MOD_POST:N-ADJ---------+ +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+--------COMP_to:N-N-------+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V_PASS-N (induced,promoter) COMP_to:N-N (promoter,basal) COMP_in:V_PASS-N (involved,initiation) MOD_POST:N-ADJ (promoter,level) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:ADJ-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) Parse 19 +-------------------APPOS------------------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+---------MOD_POST:N-ADJ---------+ +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+--------COMP_to:N-N-------+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_to:N-N (promoter,basal) COMP_in:V_PASS-N (involved,initiation) MOD_POST:N-ADJ (promoter,level) MOD_ATT:N-ADJ (promoter,dependent) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:ADJ-N (induced,conditions) COMP_during:ADJ-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) Parse 20 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | | | +--------MOD_ATT:N-N-------+ | | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 21 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | | | +--------MOD_ATT:N-N-------+ | | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 22 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (level,basal) Parse 23 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (level,basal) Parse 24 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +--------------------------------COMP_to:N-N--------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_to:N-N (initiation,level) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 25 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +--------------------------------COMP_to:N-N--------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_to:N-N (initiation,level) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_PRED:N-ADJ (promoter,induced) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 26 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | | | +--------MOD_ATT:N-N-------+ | | | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V_PASS-N (involved,level) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 27 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | | | +--------MOD_ATT:N-N-------+ | | | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) COMP_to:V_PASS-N (involved,level) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 28 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V_PASS-N (involved,level) MOD_ATT:N-ADJ (level,basal) Parse 29 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) COMP_to:V_PASS-N (involved,level) MOD_ATT:N-ADJ (level,basal) Parse 30 +-----------------------OBJ:V-N-----------------------+ | +--------MOD_ATT:N-N-------+ | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 31 +-----------------------OBJ:V-N-----------------------+ | +--------MOD_ATT:N-N-------+ | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 32 +-----------------------OBJ:V-N-----------------------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD_ATT:N-ADJ (level,basal) Parse 33 +-----------------------OBJ:V-N-----------------------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_PRED:N-ADJ (promoter,induced) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD_ATT:N-ADJ (level,basal) Parse 34 +--------------------------------COMP_to:N-N--------------------------------+ +-----------------------OBJ:V-N-----------------------+ | +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_to:N-N (initiation,level) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 35 +--------------------------------COMP_to:N-N--------------------------------+ +-----------------------OBJ:V-N-----------------------+ | +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_to:N-N (initiation,level) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 36 +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | | | +--------MOD_ATT:N-N-------+ | | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:V_PASS-N (involved,level) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 37 +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | | | +--------MOD_ATT:N-N-------+ | | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:V_PASS-N (involved,level) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 38 +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:V_PASS-N (involved,level) MOD_ATT:N-ADJ (level,basal) Parse 39 +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:V_PASS-N (involved,level) MOD_ATT:N-ADJ (level,basal) Parse 40 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . SUBJ:V_PASS-N (induced,promoter) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:N-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 41 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_during:N-N (level,growth) COMP_after:ADJ-N (induced,conditions) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 42 +-------------------APPOS------------------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V_PASS-N (induced,promoter) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:N-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 43 +-------------------APPOS------------------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_during:N-N (level,growth) COMP_after:ADJ-N (induced,conditions) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 44 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+---------------COMP_during:N-N---------------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . SUBJ:V_PASS-N (induced,promoter) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:N-N (promoter,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 45 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+---------------COMP_during:N-N---------------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:ADJ-N (induced,conditions) COMP_during:N-N (promoter,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 46 +-------------------APPOS------------------+---------------COMP_during:N-N---------------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+ +MOD_A+ | | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V_PASS-N (induced,promoter) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:N-N (promoter,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 47 +-------------------APPOS------------------+---------------COMP_during:N-N---------------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+ +MOD_A+ | | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:ADJ-N (induced,conditions) COMP_during:N-N (promoter,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 48 +-----------------------OBJ:V-N-----------------------+ | +--------MOD_ATT:N-N-------+ +----------COMP_during:V-N---------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) COMP_after:V_PASS-N (induced,conditions) COMP_during:V-N (contributes,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD_ATT:N-ADJ (level,basal) Parse 49 +-----------------------OBJ:V-N-----------------------+ | +--------MOD_ATT:N-N-------+ +----------COMP_during:V-N---------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V-N (contributes,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD_ATT:N-ADJ (level,basal) Parse 50 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+---------MOD_POST:N-ADJ---------+ +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+--------COMP_to:N-N-------+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . SUBJ:V_PASS-N (induced,promoter) COMP_to:N-N (promoter,basal) COMP_in:V_PASS-N (involved,initiation) MOD_POST:N-ADJ (promoter,level) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:ADJ-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) Parse 51 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+---------MOD_POST:N-ADJ---------+ +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+--------COMP_to:N-N-------+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_to:N-N (promoter,basal) COMP_in:V_PASS-N (involved,initiation) MOD_POST:N-ADJ (promoter,level) MOD_ATT:N-ADJ (promoter,dependent) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:ADJ-N (induced,conditions) COMP_during:ADJ-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,downstream) Parse 52 +-------------------APPOS------------------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+---------MOD_POST:N-ADJ---------+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+--------COMP_to:N-N-------+ +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) SUBJ:V_PASS-N (induced,promoter) COMP_to:N-N (promoter,basal) COMP_in:V_PASS-N (involved,initiation) MOD_POST:N-ADJ (promoter,level) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:ADJ-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) Parse 53 +-------------------APPOS------------------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+---------MOD_POST:N-ADJ---------+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+--------COMP_to:N-N-------+ +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_to:N-N (promoter,basal) COMP_in:V_PASS-N (involved,initiation) MOD_POST:N-ADJ (promoter,level) MOD_ATT:N-ADJ (promoter,dependent) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:ADJ-N (induced,conditions) COMP_during:ADJ-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) Parse 54 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) COMP_to:V-N (contributes,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 55 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) COMP_to:V-N (contributes,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 56 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | | | +--------MOD_ATT:N-N-------+ | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (level,basal) Parse 57 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | | | +--------MOD_ATT:N-N-------+ | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (level,basal) Parse 58 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +--------------------------------COMP_to:N-N--------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | | | +--------MOD_ATT:N-N-------+ | | | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_to:N-N (initiation,level) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 59 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +--------------------------------COMP_to:N-N--------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | | | +--------MOD_ATT:N-N-------+ | | | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_to:N-N (initiation,level) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 60 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +--------------------------------COMP_to:N-N--------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_to:N-N (initiation,level) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 61 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +--------------------------------COMP_to:N-N--------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_to:N-N (initiation,level) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (level,basal) Parse 62 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------------------COMP_to:V_PASS-N-----------------------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_to:V_PASS-N (involved,basal) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 63 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------------------COMP_to:V_PASS-N-----------------------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_to:V_PASS-N (involved,basal) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 64 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | | | +--------MOD_ATT:N-N-------+ | | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V_PASS-N (involved,level) MOD_ATT:N-ADJ (level,basal) Parse 65 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | | | +--------MOD_ATT:N-N-------+ | | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) COMP_to:V_PASS-N (involved,level) MOD_ATT:N-ADJ (level,basal) Parse 66 +-----------------------OBJ:V-N-----------------------+ | +--------MOD_ATT:N-N-------+ | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD_ATT:N-ADJ (level,basal) Parse 67 +-----------------------OBJ:V-N-----------------------+ | +--------MOD_ATT:N-N-------+ | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ +-----COMP_to:V-N-----+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) COMP_to:V-N (contributes,level) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (contributes,promoter) MOD_ATT:N-ADJ (level,basal) Parse 68 +--------------------------------COMP_to:N-N--------------------------------+ +-----------------------OBJ:V-N-----------------------+ | | +--------MOD_ATT:N-N-------+ | | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_to:N-N (initiation,level) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 69 +--------------------------------COMP_to:N-N--------------------------------+ +-----------------------OBJ:V-N-----------------------+ | | +--------MOD_ATT:N-N-------+ | | +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_to:N-N (initiation,level) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 70 +--------------------------------COMP_to:N-N--------------------------------+ +-----------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_to:N-N (initiation,level) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (level,basal) Parse 71 +--------------------------------COMP_to:N-N--------------------------------+ +-----------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . MOD:ADJ-N (dependent,GENEXXX) COMP_to:N-N (initiation,level) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (level,basal) Parse 72 +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | | | +--------MOD_ATT:N-N-------+ | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:V_PASS-N (involved,level) MOD_ATT:N-ADJ (level,basal) Parse 73 +--------------------------------------------COMP_to:V_PASS-N--------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | | | +--------MOD_ATT:N-N-------+ | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:V_PASS-N (involved,level) MOD_ATT:N-ADJ (level,basal) Parse 74 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | +---OBJ:V-N---+ | | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) COMP_to:V-N (contributes,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 75 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | +---OBJ:V-N---+ | | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) COMP_to:V-N (contributes,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 76 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . SUBJ:V_PASS-N (induced,promoter) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:N-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 77 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_during:N-N (level,growth) COMP_after:ADJ-N (induced,conditions) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 78 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+---------------COMP_during:N-N---------------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+ +MOD_A+ | | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . SUBJ:V_PASS-N (induced,promoter) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:N-N (promoter,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 79 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+---------------COMP_during:N-N---------------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+-----------COMP_to:N-N----------+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+ +MOD_A+ | | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (promoter,level) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:ADJ-N (induced,conditions) COMP_during:N-N (promoter,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-ADJ (level,basal) Parse 80 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+---------MOD_POST:N-ADJ---------+ | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+--------COMP_to:N-N-------+ +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . SUBJ:V_PASS-N (induced,promoter) COMP_to:N-N (promoter,basal) COMP_in:V_PASS-N (involved,initiation) MOD_POST:N-ADJ (promoter,level) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:V_PASS-N (induced,conditions) COMP_during:ADJ-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) Parse 81 +-------------------APPOS------------------+ | +--------MOD_ATT:N-N-------+ +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+---------MOD_POST:N-ADJ---------+ | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+--------COMP_to:N-N-------+ +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_to:N-N (promoter,basal) COMP_in:V_PASS-N (involved,initiation) MOD_POST:N-ADJ (promoter,level) MOD_ATT:N-ADJ (promoter,dependent) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) MOD_ATT:N-N (conditions,stress) COMP_after:ADJ-N (induced,conditions) COMP_during:ADJ-N (level,growth) APPOS (initiation,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,downstream) Parse 82 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 83 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 84 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 85 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 86 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 87 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 88 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +--------------------------------COMP_to:N-N--------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | | | +--------MOD_ATT:N-N-------+ | | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_to:N-N (initiation,level) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (level,basal) Parse 89 +-------------------------------------------------COMP_during:V_PASS-N------------------------------------------------+ | +--------------------------------COMP_to:N-N--------------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | | | +--------MOD_ATT:N-N-------+ | | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+ | | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_to:N-N (initiation,level) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) COMP_during:V_PASS-N (involved,growth) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (level,basal) Parse 90 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------------------COMP_to:V_PASS-N-----------------------------------------+ | | | +-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_to:V_PASS-N (involved,basal) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 91 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------------------COMP_to:V_PASS-N-----------------------------------------+ | | | +-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_to:V_PASS-N (involved,basal) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 92 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------------------COMP_to:V_PASS-N-----------------------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_to:V_PASS-N (involved,basal) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 93 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------------------COMP_to:V_PASS-N-----------------------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_to:V_PASS-N (involved,basal) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 94 +--------------------------------COMP_to:N-N--------------------------------+ +-----------------------OBJ:V-N-----------------------+ | | +--------MOD_ATT:N-N-------+ | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_to:N-N (initiation,level) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) COMP_after:V_PASS-N (induced,conditions) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) SUBJ:V_PASS-N (induced,promoter) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (level,basal) Parse 95 +--------------------------------COMP_to:N-N--------------------------------+ +-----------------------OBJ:V-N-----------------------+ | | +--------MOD_ATT:N-N-------+ | | +---------MOD_ATT:N-N--------+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ +SUBJ:V_PASS-+ +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ +MOD_A+COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_to:N-N (initiation,level) COMP_after:ADJ-N (induced,conditions) COMP_in:V_PASS-N (involved,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (initiation,transcriptional) SUBJ:V_PASS-N (involved,promoters) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) MOD_ATT:N-ADJ (promoter,downstream) COMP_during:N-N (level,growth) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (level,basal) Parse 96 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+-----------------------OBJ:V-N-----------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +---OBJ:V-N---+ | | | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 97 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+-----------------------OBJ:V-N-----------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +---OBJ:V-N---+ | | | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 98 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ | | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 99 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ | | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) MOD:ADJ-N (dependent,GENEXXX) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 100 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+-----------------------------COMP_to:N-N-----------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---OBJ:V-N---+ | | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 101 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+-----------------------------COMP_to:N-N-----------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---OBJ:V-N---+ | | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 102 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 103 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------OBJ:V-N-----------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 104 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 105 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 106 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 107 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 108 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------------------COMP_to:V_PASS-N-----------------------------------------+ | | | +-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_to:V_PASS-N (involved,basal) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 109 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------------------COMP_to:V_PASS-N-----------------------------------------+ | | | +-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_to:V_PASS-N (involved,basal) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 110 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+-----------------------OBJ:V-N-----------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ | | | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 111 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+-----------------------OBJ:V-N-----------------------+ | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ | | | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+--COMP_to:V-N--+ +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) MOD_ATT:N-ADJ (promoter,upstream) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_to:V-N (contributes,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 112 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | +-------------------COMP_in:N-N------------------+-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---OBJ:V-N---+ | | | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 113 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | +-------------------COMP_in:N-N------------------+-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---OBJ:V-N---+ | | | +--MOD_ATT:N-ADJ--+ | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ +MOD:ADJ-+ +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) MOD:ADJ-N (dependent,GENEXXX) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 114 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+-----------------------------COMP_to:N-N-----------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ | | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 115 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ +-------------------COMP_in:N-N------------------+-----------------------------COMP_to:N-N-----------------------------+ | +---SUBJ:V_PASS-N---+ +-----------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ | | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ +MOD:ADJ-+ +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 116 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 117 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | | +-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ +------COMP_in:V_PASS-N------+ | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) COMP_in:V_PASS-N (involved,initiation) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 118 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | +-------------------COMP_in:N-N------------------+-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ | | | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +------COMP_after:V_PASS-N------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+SUBJ:V_PASS+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) MOD_ATT:N-ADJ (promoter,dependent) COMP_after:V_PASS-N (induced,conditions) SUBJ:V_PASS-N (induced,promoter) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) Parse 119 +----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +-----------------------------COMP_to:N-N-----------------------------+ | +-------------------COMP_in:N-N------------------+-----------------------OBJ:V-N-----------------------+ | | +---SUBJ:V_PASS-N---+ | +--------MOD_ATT:N-N-------+ | | | +---------MOD_ATT:N-N--------+ +---OBJ:V-N---+ | | | +--MOD_ATT:N-ADJ--+ | | | | +---MOD_ATT:N-ADJ---+ +--------COMP_after:ADJ-N-------+ | +SUBJ:V+ | +MOD_ATT:N-AD+ | | +MOD_ATT:+-SUBJ:V-N-+ | +COMP_during:+ | | +MOD_ATT:N+MOD_PRED:N-+ +MOD_ATT:+ | | | | | | | | | | | | | | | | | | | | | Two promoters are involved in transcriptional initiation , the GENEXXX dependent upstream promoter contributes to the basal level during growth , whereas the GENEXXX dependent downstream promoter is induced after different stress conditions . COMP_in:N-N (Two,initiation) OBJ:V-N (contributes,initiation) COMP_after:ADJ-N (induced,conditions) MOD_PRED:N-ADJ (promoter,induced) MOD_ATT:N-ADJ (promoter,dependent) MOD_ATT:N-ADJ (initiation,transcriptional) OBJ:V-N (are,Two) SUBJ:V-N (contributes,promoter) MOD_ATT:N-N (conditions,stress) SUBJ:V_PASS-N (involved,Two) COMP_during:V-N (level,growth) SUBJ:V-N (are,promoters) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,upstream) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (promoter,dependent) COMP_to:N-N (initiation,basal) SUBJ:V-N (level,Two) MOD_ATT:N-ADJ (promoter,downstream) PMID: 9383188-1 Sentence 32 Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . Parse 0 +--------------------------------------COMP_of:N-N-------------------------------------+ +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,second) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) COMP_of:N-N (retardation,site) Parse 1 +-------------------------COMP_by:V-N-------------------------+ | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 2 +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 3 +-------------------------------------------------------APPOS------------------------------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (characterization,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 4 +-----------------COMP_by:N-N-----------------+--------------------------------APPOS-------------------------------+ | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (site,second) Parse 5 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (site,second) APPOS (characterization,O) Parse 6 +--------------------------------------COMP_of:N-N-------------------------------------+ | +-------------------------------COMP_of:N-N-------------------------------+ +--------------COMP_of:N-N--------------+ | +--------------------COMP_by:V-N-------------------+--------COMP_of:N-N-------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------SUBJ:V-N-------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) COMP_of:N-N (DNase,site) APPOS (site,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) COMP_of:N-N (retardation,O) COMP_of:N-N (retardation,site) MOD_ATT:N-N (site,second) Parse 7 +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 8 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 9 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 10 +-------------------------------------------------------APPOS------------------------------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 11 +---------------------------OBJ:V-N---------------------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 12 +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 13 +--------------------COMP_by:V-N-------------------+-------------------------------COMP_of:N-N-------------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (DNase,site) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-N (site,second) Parse 14 +--------------------------------APPOS-------------------------------+ +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (site,second) Parse 15 +--------------------------------APPOS-------------------------------+ +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 16 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (site,second) APPOS (characterization,O) Parse 17 +-------------------------COMP_by:V-N-------------------------+--------------------------------APPOS-------------------------------+ | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) MOD_ATT:N-N (footprinting,gel) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (footprinting,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 18 +--------------------------------APPOS-------------------------------+ +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ | | +----------MOD_ATT:N-N----------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,gel) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 19 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 20 +--------------------------COMP_of:N-N-------------------------+ +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 21 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-------------------SUBJ:V-N------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 22 +-------------------------COMP_by:V-N-------------------------+ | +----------MOD_ATT:N-N----------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+--------------------------COMP_of:N-N-------------------------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (footprinting,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) Parse 23 +-------------------------COMP_by:V-N-------------------------+ | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (footprinting,site) MOD_ATT:N-N (footprinting,gel) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 24 +-------------------------COMP_by:V-N-------------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) MOD_ATT:N-N (site,second) Parse 25 +-------------------------COMP_by:V-N-------------------------+ | +----------MOD_ATT:N-N----------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 26 +-------------------------COMP_by:V-N-------------------------+--------------------------------APPOS-------------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------------------------COMP_of:N-N-------------------------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 27 +--------------------------------APPOS-------------------------------+ +--------------------------COMP_of:N-N-------------------------+ | +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 28 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 29 +--------------------------------APPOS-------------------------------+ +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (site,second) Parse 30 +--------------------------------APPOS-------------------------------+ +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 31 +--------------------------------APPOS-------------------------------+ +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 32 +----------------------OBJ:V-N---------------------+-------------------------------COMP_of:N-N-------------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 33 +-------------------------COMP_by:V-N-------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------------------------COMP_of:N-N-------------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (footprinting,site) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 34 +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 35 +--------------------------COMP_of:N-N-------------------------+ +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 36 +-------------------------COMP_by:V-N-------------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 37 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+ +------MOD_ATT:N-N------+---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 38 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ | +--------------COMP_of:N-N--------------+ | +--------------------COMP_by:V-N-------------------+--------COMP_of:N-N-------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------SUBJ:V-N-------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) APPOS (site,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,second) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) Parse 39 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 40 +-------------------------------------------------------APPOS------------------------------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (characterization,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 41 +-----------------COMP_by:N-N-----------------+--------------------------------APPOS-------------------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+--------------------------COMP_of:N-N-------------------------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 42 +--------------------------------APPOS-------------------------------+ +--------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 43 +-------------------------------------------------------APPOS------------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (characterization,O) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 44 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 45 +-----------------COMP_by:N-N-----------------+--------------------------------APPOS-------------------------------+ | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (footprinting,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 46 +--------------------------------APPOS-------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | | +----------MOD_ATT:N-N----------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 47 +-------------------------------------------------------APPOS------------------------------------------------------+ | +--------------------------------------COMP_of:N-N-------------------------------------+ | +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (retardation,site) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (operator,second) COMP_of:N-N (retardation,O) Parse 48 +-------------------------------------------------------APPOS------------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (characterization,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) Parse 49 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (characterization,O) Parse 50 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) APPOS (characterization,O) Parse 51 +-------------------------------------------------------APPOS------------------------------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | | +----------MOD_ATT:N-N----------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (characterization,O) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 52 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) APPOS (characterization,O) Parse 53 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 54 +-----------------COMP_by:N-N-----------------+ | +----------MOD_ATT:N-N----------+--------------------------------APPOS-------------------------------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+--------------------------COMP_of:N-N-------------------------+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (footprinting,O) SUBJ:V-N (present,we) Parse 55 +-------------------------------------------------------APPOS------------------------------------------------------+ | +--------------------------------------COMP_of:N-N-------------------------------------+ | +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_of:N-N (retardation,site) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) MOD_ATT:N-ADJ (site,catabolic) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) Parse 56 +-------------------------------------------------------APPOS------------------------------------------------------+ | +--------------------------------------COMP_of:N-N-------------------------------------+ | | | +--------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) COMP_of:N-N (retardation,site) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,second) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) Parse 57 +-------------------------------------------------------APPOS------------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (characterization,O) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 58 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) APPOS (characterization,O) Parse 59 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 60 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) COMP_of:N-N (characterization,O) Parse 61 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (site,second) Parse 62 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 63 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 64 +--------------------------------------COMP_of:N-N-------------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) COMP_of:N-N (retardation,site) Parse 65 +--------------------------------------COMP_of:N-N-------------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) COMP_of:N-N (retardation,site) Parse 66 +-----------------COMP_by:N-N-----------------+ | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (footprinting,site) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 67 +-----------------COMP_by:N-N-----------------+ | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 68 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 69 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (footprinting,gel) Parse 70 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-ADJ (site,catabolic) Parse 71 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 72 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 73 +--------------------------COMP_of:N-N-------------------------+ +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 74 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_of:N-N (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 75 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (site,second) Parse 76 +-------------------------COMP_by:V-N-------------------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 77 +-------------------------COMP_of:N-N-------------------------+ +-----------------COMP_by:N-N-----------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 78 +-----------------COMP_by:N-N-----------------+ | +----------MOD_ATT:N-N----------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+--------------------------COMP_of:N-N-------------------------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (footprinting,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) Parse 79 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) Parse 80 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 81 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +--------------------COMP_by:V-N-------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-N (site,second) Parse 82 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +---------------------------OBJ:V-N---------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 83 +-------------------------COMP_of:N-N-------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 84 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 85 +-------------------------------------------------------APPOS------------------------------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 86 +-------------------------------------------------------APPOS------------------------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 87 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 88 +--------------------------------APPOS-------------------------------+ +---------------------------OBJ:V-N---------------------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 89 +---------------------------OBJ:V-N---------------------------+--------------------------------APPOS-------------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------------------------COMP_of:N-N-------------------------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 90 +--------------------------------APPOS-------------------------------+ +--------------------------COMP_of:N-N-------------------------+ | +---------------------------OBJ:V-N---------------------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 91 +-----------------COMP_by:N-N-----------------+--------------------------------APPOS-------------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------------------------COMP_of:N-N-------------------------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 92 +--------------------------------APPOS-------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 93 +-------------------------------------APPOS-------------------------------------+ +--------------------COMP_by:V-N-------------------+-------------------------------COMP_of:N-N-------------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (DNase,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (DNase,site) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_by:V-N (present,DNase) MOD_ATT:N-N (site,second) Parse 94 +-------------------------------------APPOS-------------------------------------+ +-------------------------------COMP_of:N-N-------------------------------+ | +--------------------COMP_by:V-N-------------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (DNase,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (DNase,site) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_by:V-N (present,DNase) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 95 +--------------------------------APPOS-------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (site,second) Parse 96 +--------------------------------APPOS-------------------------------+ +--------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 97 +-------------------------------------APPOS-------------------------------------+ +--------------------COMP_by:V-N-------------------+-------------------------------COMP_of:N-N-------------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (DNase,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (DNase,site) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-ADJ (site,catabolic) Parse 98 +---------------------------OBJ:V-N---------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------------------------COMP_of:N-N-------------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (footprinting,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 99 +---------------------------OBJ:V-N---------------------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (footprinting,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 100 +--------------------------COMP_of:N-N-------------------------+ +---------------------------OBJ:V-N---------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 101 +-----------------COMP_by:N-N-----------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------------------------COMP_of:N-N-------------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (footprinting,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 102 +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (footprinting,site) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 103 +---------------------------OBJ:V-N---------------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 104 +---------------------------OBJ:V-N---------------------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 105 +-----------------COMP_by:N-N-----------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 106 +--------------------COMP_by:V-N-------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-N (site,second) Parse 107 +--------------------------COMP_of:N-N-------------------------+ +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 108 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 109 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 110 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 111 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +--------------COMP_of:N-N--------------+ | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,second) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) Parse 112 +--------------------------------APPOS-------------------------------+ +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 113 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . SUBJ:V-N (footprinting,retardation) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,second) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) APPOS (characterization,O) Parse 114 +--------------------------------APPOS-------------------------------+ +--------------------------COMP_of:N-N-------------------------+ | +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 115 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 116 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) COMP_by:V-N (present,site) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 117 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 118 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) Parse 119 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) Parse 120 +-------------------------------------------------------APPOS------------------------------------------------------+ | +--------------------------------------COMP_of:N-N-------------------------------------+ | | | +-------------------------------COMP_of:N-N-------------------------------+ | | +--------------COMP_of:N-N--------------+ | | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) COMP_of:N-N (DNase,site) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (retardation,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) APPOS (characterization,O) SUBJ:V-N (present,we) APPOS (O,GENEXXX) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 121 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) APPOS (characterization,O) Parse 122 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) APPOS (characterization,O) Parse 123 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . SUBJ:V-N (footprinting,retardation) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) APPOS (characterization,O) Parse 124 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) APPOS (characterization,O) Parse 125 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) APPOS (characterization,O) Parse 126 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 127 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (characterization,O) Parse 128 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) COMP_of:N-N (characterization,O) Parse 129 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 130 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | | +----------MOD_ATT:N-N----------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 131 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 132 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 133 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) COMP_of:N-N (retardation,O) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 134 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 135 +--------------------------------------COMP_of:N-N-------------------------------------+ +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) COMP_of:N-N (retardation,site) Parse 136 +--------------------------------------COMP_of:N-N-------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) MOD_ATT:N-N (site,second) COMP_of:N-N (retardation,site) Parse 137 +--------------------------------------COMP_of:N-N-------------------------------------+ | +-------------------------------COMP_of:N-N-------------------------------+ +--------------COMP_of:N-N--------------+ | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) COMP_of:N-N (DNase,site) APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,second) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (retardation,O) COMP_of:N-N (retardation,site) Parse 138 +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ | +----------MOD_ATT:N-N----------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,gel) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 139 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-------------------SUBJ:V-N------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) COMP_of:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 140 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-------------------SUBJ:V-N------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) Parse 141 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) COMP_of:N-N (characterization,O) Parse 142 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 143 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 144 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 145 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 146 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 147 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +----------------------OBJ:V-N---------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) OBJ:V-N (present,DNase) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 148 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +--------------------COMP_by:V-N-------------------+--------------APPOS--------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) APPOS (DNase,GENEXXX) MOD_ATT:N-N (site,second) Parse 149 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 150 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 151 +--------------------------------------COMP_of:N-N-------------------------------------+ +-------------------------COMP_by:V-N-------------------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) COMP_of:N-N (retardation,site) Parse 152 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +---------------------------OBJ:V-N---------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 153 +-------------------------COMP_by:V-N-------------------------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 154 +-------------------------COMP_by:V-N-------------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 155 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (site,second) Parse 156 +-----------------COMP_by:N-N-----------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 157 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +------------COMP_by:N-N-----------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 158 +-------------------------COMP_by:V-N-------------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) Parse 159 +-------------------------COMP_of:N-N-------------------------+ +------------COMP_by:N-N-----------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 160 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) COMP_of:N-N (retardation,O) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 161 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 162 +--------------COMP_of:N-N--------------+ +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . SUBJ:V-N (footprinting,retardation) COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,second) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) Parse 163 +-------------------------COMP_by:V-N-------------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 164 +---------------------APPOS--------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 165 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 166 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 167 +-------------------------COMP_by:V-N-------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) Parse 168 +---------------------APPOS--------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------------COMP_of:N-N--------------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 169 +-------------------------COMP_by:V-N-------------------------+ | +----------MOD_ATT:N-N----------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (footprinting,gel) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 170 +-----------------COMP_by:N-N-----------------+ | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 171 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) APPOS (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (site,second) Parse 172 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 173 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,second) Parse 174 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 175 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +------------COMP_by:N-N-----------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (characterization,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (site,second) Parse 176 +-------------------------------------APPOS-------------------------------------+ +----------------------OBJ:V-N---------------------+-------------------------------COMP_of:N-N-------------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (DNase,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 177 +-------------------------------------APPOS-------------------------------------+ +----------------------OBJ:V-N---------------------+-------------------------------COMP_of:N-N-------------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (DNase,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 178 +-------------------------------------APPOS-------------------------------------+ +------------COMP_by:N-N-----------+-------------------------------COMP_of:N-N-------------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (DNase,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 179 +-------------------------------------APPOS-------------------------------------+ +------------COMP_by:N-N-----------+-------------------------------COMP_of:N-N-------------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (DNase,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 180 +------------COMP_by:N-N-----------+-------------------------------COMP_of:N-N-------------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 181 +----------------------OBJ:V-N---------------------+-------------------------------COMP_of:N-N-------------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 182 +----------------------OBJ:V-N---------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (footprinting,DNase) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 183 +----------------------OBJ:V-N---------------------+-------------------------------COMP_of:N-N-------------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 184 +-------------------------COMP_by:V-N-------------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 185 +-----------------COMP_by:N-N-----------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 186 +---------------------APPOS--------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 187 +------------COMP_by:N-N-----------+-------------------------------COMP_of:N-N-------------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 188 +---------------------------OBJ:V-N---------------------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (site,second) Parse 189 +-------------------------COMP_by:V-N-------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ | +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 190 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 191 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+ +------MOD_ATT:N-N------+---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 192 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+ +------MOD_ATT:N-N------+---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 193 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+ +------MOD_ATT:N-N------+---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 194 +--------------------------------APPOS-------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 195 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 196 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 197 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 198 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 199 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 200 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) Parse 201 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 202 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) COMP_of:N-N (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 203 +-----------------COMP_by:N-N-----------------+--------------------------------APPOS-------------------------------+ | +----------MOD_ATT:N-N----------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) APPOS (footprinting,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 204 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 205 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 206 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) Parse 207 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 208 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) Parse 209 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) COMP_by:V-N (present,site) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 210 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 211 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) Parse 212 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 213 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 214 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) COMP_of:N-N (characterization,O) Parse 215 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) COMP_of:N-N (characterization,O) Parse 216 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (footprinting,gel) Parse 217 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) COMP_of:N-N (characterization,O) Parse 218 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 219 +--------------------------------------COMP_of:N-N-------------------------------------+ +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) COMP_of:N-N (retardation,site) Parse 220 +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ | +----------MOD_ATT:N-N----------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 221 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 222 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) Parse 223 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (characterization,O) Parse 224 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-ADJ (site,catabolic) Parse 225 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 226 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 227 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +---------------------------OBJ:V-N---------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 228 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 229 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) Parse 230 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 231 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 232 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 233 +--------------------------------------COMP_of:N-N-------------------------------------+ | +--------------------------COMP_of:N-N-------------------------+ +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) MOD_ATT:N-N (site,second) COMP_of:N-N (retardation,site) Parse 234 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +---------------------------OBJ:V-N---------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 235 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +---------------------------OBJ:V-N---------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 236 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +---------------------------OBJ:V-N---------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 237 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +----------------------OBJ:V-N---------------------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) OBJ:V-N (present,DNase) SUBJ:V-N (present,we) APPOS (DNase,GENEXXX) MOD_ATT:N-N (site,second) Parse 238 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (characterization,O) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,gel) Parse 239 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (site,second) Parse 240 +-------------------------COMP_by:V-N-------------------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 241 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (retardation,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) Parse 242 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (retardation,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 243 +-----------------COMP_by:N-N-----------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) Parse 244 +-----------------COMP_by:N-N-----------------+ | +----------MOD_ATT:N-N----------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) Parse 245 +-----------------COMP_by:N-N-----------------+ | +----------MOD_ATT:N-N----------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 246 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 247 +-------------------------COMP_of:N-N-------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) Parse 248 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +--------------------COMP_by:V-N-------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-ADJ (site,catabolic) Parse 249 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +--------------------COMP_by:V-N-------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 250 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 251 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 252 +-----------------COMP_by:N-N-----------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 253 +-----------------COMP_by:N-N-----------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 254 +--------------COMP_of:N-N--------------+---------------------APPOS--------------------+ +--------------------COMP_by:V-N-------------------+--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+--------SUBJ:V-N-------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . SUBJ:V-N (footprinting,retardation) COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (site,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) MOD_ATT:N-N (site,second) Parse 255 +-------------------------COMP_of:N-N-------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 256 +-------------------------COMP_by:V-N-------------------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 257 +-----------------------------APPOS----------------------------+ +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +------MOD_ATT:N-N------+---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 258 +-------------------------COMP_of:N-N-------------------------+---------------------APPOS--------------------+ +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 259 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | | +--------------COMP_of:N-N--------------+ | | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,second) COMP_of:N-N (retardation,O) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 260 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 261 +-----------------COMP_by:N-N-----------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) Parse 262 +---------------------APPOS--------------------+ +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) COMP_of:N-N (retardation,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 263 +-------------------------COMP_of:N-N-------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) Parse 264 +-----------------COMP_by:N-N-----------------+ +---------------------APPOS--------------------+ | +----------MOD_ATT:N-N----------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 265 +-------------------------COMP_of:N-N-------------------------+---------------------APPOS--------------------+ +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 266 +-------------------------COMP_by:V-N-------------------------+ | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 267 +-------------------------COMP_of:N-N-------------------------+ +-----------------COMP_by:N-N-----------------+ +---------------------APPOS--------------------+ | +----------MOD_ATT:N-N----------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 268 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +------------COMP_by:N-N-----------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) Parse 269 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 270 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 271 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 272 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 273 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 274 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) Parse 275 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +------------COMP_by:N-N-----------+--------------APPOS--------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-------MOD_ATT:N-N------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (characterization,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) APPOS (DNase,GENEXXX) MOD_ATT:N-N (site,second) Parse 276 +--------------------------------APPOS-------------------------------+ +---------------------------OBJ:V-N---------------------------+--------------------------COMP_of:N-N-------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) COMP_of:N-N (footprinting,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) APPOS (footprinting,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 277 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 278 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 279 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +-------------------------COMP_by:V-N-------------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) MOD_ATT:N-N (footprinting,DNase) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 280 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +--------------------COMP_by:V-N-------------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) Parse 281 +-----------------COMP_by:N-N-----------------+--------------------------COMP_of:N-N-------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) COMP_of:N-N (footprinting,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 282 +-------------------------------COMP_of:N-N-------------------------------+ +--------------------COMP_by:V-N-------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (DNase,site) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 283 +---------------------APPOS--------------------+ +---------------------------OBJ:V-N---------------------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 284 +---------------------------OBJ:V-N---------------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 285 +----------------------------------APPOS----------------------------------+ +----------------------OBJ:V-N---------------------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) APPOS (DNase,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) APPOS (DNase,site) Parse 286 +-----------------COMP_by:N-N-----------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 287 +--------------------COMP_by:V-N-------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) Parse 288 +---------------------APPOS--------------------+ +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 289 +-------------------------COMP_by:V-N-------------------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 290 +-------------------------COMP_by:V-N-------------------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 291 +-------------------------COMP_by:V-N-------------------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 292 +---------------------------OBJ:V-N---------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 293 +---------------------------OBJ:V-N---------------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 294 +-----------------COMP_by:N-N-----------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 295 +-----------------COMP_by:N-N-----------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 296 +--------------------COMP_by:V-N-------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-ADJ (site,catabolic) Parse 297 +---------------------APPOS--------------------+ +--------------------COMP_by:V-N-------------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 298 +----------------------------------APPOS----------------------------------+ +------------COMP_by:N-N-----------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-------MOD_ATT:N-N------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) APPOS (DNase,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,second) APPOS (DNase,site) Parse 299 +-----------------------------APPOS----------------------------+ +-------------------------COMP_by:V-N-------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) COMP_by:V-N (present,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 300 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 301 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 302 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +--------------COMP_of:N-N--------------+ | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) MOD_ATT:N-ADJ (site,catabolic) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) MOD_ATT:N-N (site,second) Parse 303 +-------------------------------------------------------APPOS------------------------------------------------------+ | +--------------------------------------COMP_of:N-N-------------------------------------+ | | | +-------------------------------COMP_of:N-N-------------------------------+ | | +--------------COMP_of:N-N--------------+ | | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) COMP_of:N-N (DNase,site) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_of:N-N (retardation,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (operator,second) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) APPOS (characterization,O) SUBJ:V-N (present,we) APPOS (O,GENEXXX) COMP_of:N-N (retardation,O) Parse 304 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . SUBJ:V-N (footprinting,retardation) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) APPOS (characterization,O) Parse 305 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) COMP_of:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) APPOS (characterization,O) Parse 306 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 307 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 308 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_of:N-N------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) APPOS (characterization,O) Parse 309 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 310 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 311 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +--------------COMP_of:N-N--------------+ | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) Parse 312 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 313 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 314 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (operator,second) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) COMP_of:N-N (characterization,O) Parse 315 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 316 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) Parse 317 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) COMP_of:N-N (characterization,O) Parse 318 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (characterization,O) Parse 319 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 320 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,gel) Parse 321 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) COMP_of:N-N (characterization,O) Parse 322 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +-----------------COMP_by:N-N-----------------+ | | | | | +----------MOD_ATT:N-N----------+ | | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 323 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) SUBJ:V-N (footprinting,retardation) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) COMP_of:N-N (characterization,O) Parse 324 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) SUBJ:V-N (footprinting,retardation) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) COMP_of:N-N (characterization,O) Parse 325 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,GENEXXX) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 326 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (footprinting,retardation) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 327 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) COMP_of:N-N (retardation,O) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 328 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (characterization,O) Parse 329 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 330 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +-----------------COMP_by:N-N-----------------+ | | | | | +----------MOD_ATT:N-N----------+ | | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) Parse 331 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +-----------------COMP_by:N-N-----------------+ | | | | | +----------MOD_ATT:N-N----------+ | | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 332 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +-----------------COMP_by:N-N-----------------+ | | | | | +----------MOD_ATT:N-N----------+ | | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 333 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 334 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 335 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 336 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +---------------------------OBJ:V-N---------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 337 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +---------------------------OBJ:V-N---------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 338 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 339 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 340 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 341 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (retardation,gel) APPOS (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 342 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 343 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | | +--------------COMP_of:N-N--------------+ | | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) APPOS (characterization,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_of:N-N (retardation,O) COMP_by:N-N (characterization,DNase) MOD_ATT:N-ADJ (site,catabolic) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 344 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | | +--------------COMP_of:N-N--------------+ | | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) APPOS (characterization,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-N (operator,second) Parse 345 +-------------------------------------------------COMP_of:N-N------------------------------------------------+ +-------------------------COMP_of:N-N-------------------------+ | +------------COMP_by:N-N-----------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 346 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +----------------------OBJ:V-N---------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) OBJ:V-N (present,DNase) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 347 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +----------------------OBJ:V-N---------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) OBJ:V-N (present,DNase) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 348 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +---------------------------OBJ:V-N---------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 349 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +---------------------------OBJ:V-N---------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 350 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ | | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,O) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (footprinting,gel) Parse 351 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (footprinting,gel) Parse 352 +-------------------------COMP_of:N-N-------------------------+---------------------APPOS--------------------+ +------------COMP_by:N-N-----------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) SUBJ:V-N (footprinting,retardation) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 353 +-------------------------COMP_of:N-N-------------------------+ +-------------------SUBJ:V-N------------------+ | +------------COMP_by:N-N-----------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,characterization) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) Parse 354 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) APPOS (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 355 +-------------------------COMP_of:N-N-------------------------+ +-------------------SUBJ:V-N------------------+ +---------------------APPOS--------------------+ +------------COMP_by:N-N-----------+ | | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) SUBJ:V-N (footprinting,characterization) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 356 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 357 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,O) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-ADJ (site,catabolic) Parse 358 +-------------------------COMP_of:N-N-------------------------+ +------------COMP_by:N-N-----------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | +---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) Parse 359 +-------------------------COMP_of:N-N-------------------------+ +------------COMP_by:N-N-----------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 360 +-----------------COMP_by:N-N-----------------+ | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 361 +-----------------COMP_by:N-N-----------------+ | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 362 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +------------COMP_by:N-N-----------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 363 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +------------COMP_by:N-N-----------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 364 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_of:N-N (retardation,O) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 365 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,site) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 366 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) COMP_of:N-N (retardation,O) APPOS (characterization,GENEXXX) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) Parse 367 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +--------------------COMP_by:V-N-------------------+--------------APPOS--------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) APPOS (DNase,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 368 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 369 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 370 +-----------------COMP_by:N-N-----------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 371 +-------------------------COMP_of:N-N-------------------------+ +-------------------SUBJ:V-N------------------+ | +------------COMP_by:N-N-----------+ | +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,site) SUBJ:V-N (footprinting,characterization) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 372 +-------------------------COMP_of:N-N-------------------------+ +-------------------SUBJ:V-N------------------+ | +------------COMP_by:N-N-----------+ | +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,characterization) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 373 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +------------COMP_by:N-N-----------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) Parse 374 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ | +------MOD_ATT:N-N------+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) APPOS (characterization,GENEXXX) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 375 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +------------COMP_by:N-N-----------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 376 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 377 +-------------------------COMP_of:N-N-------------------------+ +------------COMP_by:N-N-----------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 378 +-----------------COMP_by:N-N-----------------+ | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 379 +-----------------COMP_by:N-N-----------------+-----------------------------APPOS----------------------------+ | +----------MOD_ATT:N-N----------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,retardation) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,gel) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 380 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) APPOS (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,gel) Parse 381 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------------COMP_of:N-N--------------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) COMP_of:N-N (retardation,O) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 382 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) APPOS (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,gel) Parse 383 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 384 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 385 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 386 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+ | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 387 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | | | +-MOD:V-ADV-+ | | +------MOD_ATT:N-N------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ | | +MOD_ATT:N-+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,retardation) MOD_ATT:N-N (footprinting,gel) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) APPOS (characterization,site) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_of:N-N (characterization,O) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 388 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) APPOS (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) Parse 389 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 390 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +------------COMP_by:N-N-----------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 391 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 392 +-------------------------------------------------------APPOS------------------------------------------------------+ +------------COMP_by:N-N-----------+-------------------------------COMP_of:N-N-------------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,site) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) APPOS (characterization,O) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 393 +-------------------------------------------------------APPOS------------------------------------------------------+ +------------COMP_by:N-N-----------+-------------------------------COMP_of:N-N-------------------------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,site) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) APPOS (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 394 +-------------------------------------------------------APPOS------------------------------------------------------+ | +-------------------------------COMP_of:N-N-------------------------------+ | +------------COMP_by:N-N-----------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,site) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) APPOS (characterization,O) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 395 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (site,O) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 396 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) MOD_ATT:N-N (footprinting,DNase) APPOS (O,GENEXXX) APPOS (characterization,site) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (characterization,GENEXXX) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) Parse 397 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 398 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 399 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) Parse 400 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (characterization,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) SUBJ:V-N (present,we) COMP_of:N-N (footprinting,O) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 401 +-------------------------------------APPOS-------------------------------------+ +-------------------------------COMP_of:N-N-------------------------------+ | +----------------------OBJ:V-N---------------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (DNase,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 402 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +------------COMP_by:N-N-----------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +---MOD_ATT:N-N---+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (characterization,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 403 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +------------COMP_by:N-N-----------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (characterization,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 404 +-------------------------------------APPOS-------------------------------------+ +-------------------------------COMP_of:N-N-------------------------------+ | +------------COMP_by:N-N-----------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (DNase,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 405 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +------------COMP_by:N-N-----------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 406 +---------------------------------------------------------COMP_by:V-N--------------------------------------------------------+ +--------------------COMP_by:V-N-------------------+--------------APPOS--------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:V-N (present,site) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) APPOS (DNase,GENEXXX) Parse 407 +-------------------------------COMP_of:N-N-------------------------------+ +----------------------OBJ:V-N---------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_of:N-N (DNase,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 408 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +------------COMP_by:N-N-----------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) Parse 409 +----------------------OBJ:V-N---------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (footprinting,DNase) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 410 +-----------------------------APPOS----------------------------+ +---------------------------OBJ:V-N---------------------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 411 +----------------------OBJ:V-N---------------------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (footprinting,DNase) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 412 +---------------------------OBJ:V-N---------------------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 413 +---------------------------OBJ:V-N---------------------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 414 +------------COMP_by:N-N-----------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 415 +-----------------COMP_by:N-N-----------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 416 +----------------------------------APPOS----------------------------------+ +--------------------COMP_by:V-N-------------------+--------------APPOS--------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) APPOS (DNase,GENEXXX) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) APPOS (DNase,site) Parse 417 +----------------------------------APPOS----------------------------------+ +--------------------COMP_by:V-N-------------------+--------------APPOS--------------+ | +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) APPOS (DNase,GENEXXX) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-ADJ (site,catabolic) APPOS (DNase,site) Parse 418 +---------------------APPOS--------------------+ +----------------------OBJ:V-N---------------------+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) SUBJ:V-N (footprinting,DNase) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 419 +---------------------------OBJ:V-N---------------------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) OBJ:V-N (present,footprinting) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 420 +------------COMP_by:N-N-----------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+---------------------APPOS--------------------+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 421 +------------COMP_by:N-N-----------+ +---------------------APPOS--------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ +-APPOS+ | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,site) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) APPOS (O,GENEXXX) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 422 +-----------------COMP_by:N-N-----------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 423 +-----------------COMP_by:N-N-----------------+-----------------------------APPOS----------------------------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +---------APPOS--------+ +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +MOD_ATT:N-+--COMP_of:N-N--+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . MOD_ATT:N-N (footprinting,DNase) APPOS (site,O) COMP_of:N-N (footprinting,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) COMP_by:N-N (characterization,footprinting) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) APPOS (footprinting,site) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) APPOS (footprinting,GENEXXX) Parse 424 +----------------------------------APPOS----------------------------------+ +--------------------COMP_by:V-N-------------------+--------------APPOS--------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+-------------COMP_by:V-N-------------+ +--------COMP_of:N-N-------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) COMP_by:V-N (present,retardation) SUBJ:V-N (footprinting,DNase) APPOS (DNase,GENEXXX) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) COMP_by:V-N (present,DNase) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) APPOS (DNase,site) Parse 425 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | | +--------------COMP_of:N-N--------------+ | | | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) COMP_of:N-N (retardation,O) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 426 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (characterization,O) Parse 427 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +------------COMP_by:N-N-----------+ | | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) COMP_of:N-N (characterization,O) Parse 428 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +-------------------SUBJ:V-N------------------+ | | | | +------------COMP_by:N-N-----------+ | | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (footprinting,characterization) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) COMP_of:N-N (characterization,O) Parse 429 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +-------------------------COMP_of:N-N-------------------------+ | | | +-------------------SUBJ:V-N------------------+ | | | | +------------COMP_by:N-N-----------+ | | | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (footprinting,characterization) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) COMP_of:N-N (characterization,O) Parse 430 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +------------COMP_by:N-N-----------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) APPOS (DNase,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 431 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +------------COMP_by:N-N-----------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) APPOS (DNase,GENEXXX) Parse 432 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +----------------------OBJ:V-N---------------------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) OBJ:V-N (present,DNase) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) APPOS (DNase,GENEXXX) Parse 433 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (site,O) SUBJ:V-N (footprinting,retardation) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) Parse 434 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (site,O) SUBJ:V-N (footprinting,retardation) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 435 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (O,GENEXXX) APPOS (site,O) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 436 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) Parse 437 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) Parse 438 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------------------APPOS-------------------------------+ | | +------------COMP_by:N-N-----------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) SUBJ:V-N (present,we) Parse 439 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | | +--------------COMP_of:N-N--------------+ | | +------------COMP_by:N-N-----------+--------COMP_of:N-N-------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+--------SUBJ:V-N-------+ | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) SUBJ:V-N (footprinting,retardation) APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) APPOS (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) COMP_of:N-N (retardation,O) COMP_by:N-N (characterization,DNase) MOD_ATT:N-ADJ (operator,catabolic) APPOS (characterization,GENEXXX) MOD_ATT:N-N (operator,second) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) Parse 440 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (O,GENEXXX) APPOS (site,O) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) Parse 441 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +---MOD_ATT:N-N---+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | | | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (site,O) APPOS (O,GENEXXX) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) MOD_ATT:N-N (operator,second) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) Parse 442 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +-------------------SUBJ:V-N------------------+ | | | +------------COMP_by:N-N-----------+ | | | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ | | | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (site,O) APPOS (O,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (footprinting,characterization) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 443 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ +----------------------OBJ:V-N---------------------+--------------APPOS--------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) OBJ:V-N (present,DNase) SUBJ:V-N (present,we) APPOS (DNase,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 444 +----------------------------------------------------APPOS---------------------------------------------------+ +--------------------------------APPOS-------------------------------+ | +-------------------------COMP_of:N-N-------------------------+ | | +------------COMP_by:N-N-----------+ | | +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ | | | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (characterization,site) APPOS (site,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) APPOS (characterization,GENEXXX) COMP_of:N-N (characterization,O) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 445 +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +------------COMP_by:N-N-----------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) OBJ:V-N (present,site) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) APPOS (DNase,GENEXXX) Parse 446 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +------------COMP_by:N-N-----------+--------------APPOS--------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | +MOD_ATT:+MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (characterization,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) APPOS (DNase,GENEXXX) Parse 447 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +------------COMP_by:N-N-----------+--------------APPOS--------------+ | | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (characterization,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) APPOS (DNase,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) Parse 448 +-------------------------------------------------------APPOS------------------------------------------------------+ +-------------------------------------------------COMP_by:N-N------------------------------------------------+ | +------------COMP_by:N-N-----------+--------------APPOS--------------+ +-------MOD_ATT:N-N------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | +-MOD_ATT:N-ADJ-+ | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | | +MOD_AT+ +-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (characterization,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,site) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) MOD_ATT:N-N (site,operator) APPOS (DNase,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 449 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +------------COMP_by:N-N-----------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) APPOS (DNase,GENEXXX) Parse 450 +-------------------------------------------------COMP_by:N-N------------------------------------------------+ +------------COMP_by:N-N-----------+--------------APPOS--------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) COMP_by:N-N (characterization,site) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) MOD_ATT:N-N (retardation,gel) COMP_by:N-N (characterization,DNase) SUBJ:V-N (present,we) APPOS (DNase,GENEXXX) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) Parse 451 +----------------------------------APPOS----------------------------------+ +----------------------OBJ:V-N---------------------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) APPOS (DNase,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (DNase,site) Parse 452 +----------------------------------APPOS----------------------------------+ +----------------------OBJ:V-N---------------------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) APPOS (DNase,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) APPOS (DNase,site) Parse 453 +----------------------------------APPOS----------------------------------+ +----------------------OBJ:V-N---------------------+--------------APPOS--------------+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | +-MOD_ATT:N-ADJ-+ | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | | | +MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . APPOS (site,O) COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) SUBJ:V-N (footprinting,DNase) APPOS (DNase,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) OBJ:V-N (present,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) MOD_ATT:N-ADJ (site,catabolic) MOD_ATT:N-N (site,second) APPOS (DNase,site) Parse 454 +----------------------------------APPOS----------------------------------+ +------------COMP_by:N-N-----------+--------------APPOS--------------+ | +-MOD:V-ADV-+ +-----COMP_by:N-N-----+ +--------COMP_of:N-N-------+ | | | +SUBJ:+----OBJ:V-N----+ +MOD_ATT+ +-SUBJ:V-N-+ | | +MOD_ATT:+MOD_AT+APPOS+-APPOS+ | | | | | | | | | | | | | | | Here , we present the characterization by gel retardation and DNase I footprinting of both O ( GENEXXX ) and a second catabolic operator site , O ( GENEXXX ) . COMP_of:N-N (DNase,O) APPOS (O,GENEXXX) APPOS (site,O) SUBJ:V-N (footprinting,DNase) MOD_ATT:N-ADJ (operator,catabolic) APPOS (DNase,GENEXXX) COMP_by:N-N (characterization,retardation) OBJ:V-N (present,characterization) MOD:V-ADV (present,Here) MOD_ATT:N-N (site,operator) COMP_by:N-N (characterization,DNase) MOD_ATT:N-N (retardation,gel) SUBJ:V-N (present,we) APPOS (DNase,site) PMID: 9422603-1 Sentence 33 DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . Parse 0 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ +-------MOD_PRED:N-ADJ-------+ +--------MOD_ATT:N-N--------+ +--MOD_PRED:N-ADJ-+ +--------MOD_ATT:N-N--------+ | +COMP_of:+ | | +MOD:ADJ-+MOD_ATT:N+ | +MOD_PRED:N+ | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-ADJ (promoters,dependent) COMP_of:N-N (upstream,P1) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) MOD_ATT:N-ADJ (promoters,dependent) Parse 1 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ +-------MOD_PRED:N-ADJ-------+ +--------MOD_ATT:N-N--------+ +--MOD_PRED:N-ADJ-+ +--------MOD_ATT:N-N--------+ +---COMP_of:N-N---+ | | +MOD:ADJ-+MOD_ATT:N+ | +MOD_PRED:N+ | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-ADJ (promoters,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) COMP_of:N-N (sequences,P1) MOD_ATT:N-ADJ (promoters,dependent) Parse 2 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ +-------MOD_PRED:N-ADJ-------+ +--------MOD_ATT:N-N--------+ +--MOD_PRED:N-ADJ-+ +--------MOD_ATT:N-N--------+ +MOD_AT+---COMP_of:N-N---+ | | +MOD:ADJ-+MOD_ATT:N+ | +MOD_PRED:N+ | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-ADJ (promoters,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) MOD_PRED:N-ADJ (P2,similar) COMP_of:N-N (sequences,P1) MOD_ATT:N-N (sequences,DNA) MOD_PRED:N-ADJ (P3,similar) Parse 3 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ +-----------MOD_PRED:N-ADJ----------+ +--------MOD_ATT:N-N--------+ +--MOD_PRED:N-ADJ-+ +--------MOD_ATT:N-N--------+ | +COMP_of:+ | | +MOD:ADJ-+MOD_ATT:N+ | +MOD_PRED:N+ | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-ADJ (promoters,dependent) COMP_of:N-N (upstream,P1) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-ADJ (promoters,dependent) Parse 4 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ +-----------MOD_PRED:N-ADJ----------+ +--------MOD_ATT:N-N--------+ +--MOD_PRED:N-ADJ-+ +--------MOD_ATT:N-N--------+ +-------COMP_of:N-N------+ | | +MOD:ADJ-+MOD_ATT:N+ | +MOD_PRED:N+ | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) COMP_to:ADJ-N (similar,promoters) COMP_of:N-N (DNA,P1) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-ADJ (promoters,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-ADJ (promoters,dependent) Parse 5 +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ +-------------COMP_to:ADJ-N-------------+ +-------MOD_PRED:N-ADJ-------+ | +----MOD_ATT:N-N---+ +--MOD_PRED:N-ADJ-+ +--------MOD_ATT:N-N--------+ | +COMP_of:+ | | | +MOD_ATT:N+ | +MOD_PRED:N+ | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) COMP_of:N-N (upstream,P1) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) MOD_ATT:N-ADJ (promoters,dependent) Parse 6 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ +-------MOD_PRED:N-ADJ-------+ +--------MOD_ATT:N-N--------+ +--MOD_PRED:N-ADJ-+ | +----MOD_ATT:N-N---+ | +COMP_of:+ | | +MOD:ADJ-+MOD_ATT:N+ | +MOD_PRED:N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-ADJ (promoters,dependent) COMP_of:N-N (upstream,P1) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) Parse 7 +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ +-------------COMP_to:ADJ-N-------------+ +-------MOD_PRED:N-ADJ-------+ | +----MOD_ATT:N-N---+ +--MOD_PRED:N-ADJ-+ +--------MOD_ATT:N-N--------+ +---COMP_of:N-N---+ | | | +MOD_ATT:N+ | +MOD_PRED:N+ | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) COMP_of:N-N (sequences,P1) MOD_ATT:N-ADJ (promoters,dependent) Parse 8 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ +-------MOD_PRED:N-ADJ-------+ +--------MOD_ATT:N-N--------+ +--MOD_PRED:N-ADJ-+ | +----MOD_ATT:N-N---+ +---COMP_of:N-N---+ | | +MOD:ADJ-+MOD_ATT:N+ | +MOD_PRED:N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) COMP_of:N-N (sequences,P1) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) Parse 9 +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ +-------------COMP_to:ADJ-N-------------+ +-------MOD_PRED:N-ADJ-------+ | +----MOD_ATT:N-N---+ +--MOD_PRED:N-ADJ-+ +--------MOD_ATT:N-N--------+ +MOD_AT+---COMP_of:N-N---+ | | | +MOD_ATT:N+ | +MOD_PRED:N+ | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) MOD_PRED:N-ADJ (P2,similar) COMP_of:N-N (sequences,P1) MOD_ATT:N-N (sequences,DNA) MOD_PRED:N-ADJ (P3,similar) Parse 10 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ +-------MOD_PRED:N-ADJ-------+ +--------MOD_ATT:N-N--------+ +--MOD_PRED:N-ADJ-+ | +----MOD_ATT:N-N---+ +MOD_AT+---COMP_of:N-N---+ | | +MOD:ADJ-+MOD_ATT:N+ | +MOD_PRED:N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) MOD_PRED:N-ADJ (P2,similar) COMP_of:N-N (sequences,P1) MOD_ATT:N-N (sequences,DNA) MOD_ATT:N-N (promoters,GENEXXX) MOD_PRED:N-ADJ (P3,similar) Parse 11 +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ +-------------COMP_to:ADJ-N-------------+ +-----------MOD_PRED:N-ADJ----------+ | +----MOD_ATT:N-N---+ +--MOD_PRED:N-ADJ-+ +--------MOD_ATT:N-N--------+ | +COMP_of:+ | | | +MOD_ATT:N+ | +MOD_PRED:N+ | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) COMP_of:N-N (upstream,P1) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-ADJ (promoters,dependent) Parse 12 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ +-----------MOD_PRED:N-ADJ----------+ +--------MOD_ATT:N-N--------+ +--MOD_PRED:N-ADJ-+ | +----MOD_ATT:N-N---+ | +COMP_of:+ | | +MOD:ADJ-+MOD_ATT:N+ | +MOD_PRED:N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-ADJ (promoters,dependent) COMP_of:N-N (upstream,P1) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) Parse 13 +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ +-------------COMP_to:ADJ-N-------------+ +-----------MOD_PRED:N-ADJ----------+ | +----MOD_ATT:N-N---+ +--MOD_PRED:N-ADJ-+ +--------MOD_ATT:N-N--------+ +-------COMP_of:N-N------+ | | | +MOD_ATT:N+ | +MOD_PRED:N+ | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) COMP_to:ADJ-N (similar,promoters) COMP_of:N-N (DNA,P1) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-ADJ (promoters,dependent) Parse 14 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ +-----------MOD_PRED:N-ADJ----------+ +--------MOD_ATT:N-N--------+ +--MOD_PRED:N-ADJ-+ | +----MOD_ATT:N-N---+ +-------COMP_of:N-N------+ | | +MOD:ADJ-+MOD_ATT:N+ | +MOD_PRED:N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) COMP_to:ADJ-N (similar,promoters) COMP_of:N-N (DNA,P1) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) Parse 15 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ | +--------MOD_ATT:N-N--------+ +-------MOD_PRED:N-ADJ-------+ | +----MOD_ATT:N-N---+ +--MOD_PRED:N-ADJ-+ | +----MOD_ATT:N-N---+ | +COMP_of:+ | | | +MOD_ATT:N+ | +MOD_PRED:N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) COMP_of:N-N (upstream,P1) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) Parse 16 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ | +--------MOD_ATT:N-N--------+ +-------MOD_PRED:N-ADJ-------+ | +----MOD_ATT:N-N---+ +--MOD_PRED:N-ADJ-+ | +----MOD_ATT:N-N---+ +---COMP_of:N-N---+ | | | +MOD_ATT:N+ | +MOD_PRED:N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) COMP_of:N-N (sequences,P1) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) Parse 17 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ | +--------MOD_ATT:N-N--------+ +-------MOD_PRED:N-ADJ-------+ | +----MOD_ATT:N-N---+ +--MOD_PRED:N-ADJ-+ | +----MOD_ATT:N-N---+ +MOD_AT+---COMP_of:N-N---+ | | | +MOD_ATT:N+ | +MOD_PRED:N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (sequences,similar) MOD_PRED:N-ADJ (P2,similar) COMP_of:N-N (sequences,P1) MOD_ATT:N-N (sequences,DNA) MOD_ATT:N-N (promoters,GENEXXX) MOD_PRED:N-ADJ (P3,similar) Parse 18 +-----------------------------------------------MOD_PRED:N-ADJ----------------------------------------------+ | +------------------------COMP_to:ADJ-N-----------------------+ | +-----------MOD_POST:N-ADJ----------+--------------------COMP_to:ADJ-N--------------------+ | | +-----------OBJ:V-N----------+ +-------------COMP_to:ADJ-N-------------+ | | +-------------COMP_to:ADJ-N-------------+ | +-------SUBJ:V-N------+ | +--------MOD_ATT:N-N--------+ | | | +--------MOD_ATT:N-N--------+ | | +COMP_of:+ | | | +MOD:ADJ-+MOD_ATT:N+ | | | | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,promoters) MOD_PRED:N-ADJ (DNA,similar) MOD_POST:N-ADJ (DNA,similar) COMP_to:ADJ-N (similar,P3) COMP_of:N-N (upstream,P1) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) OBJ:V-N (were,DNA) SUBJ:V-N (were,sequences) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,P2) Parse 19 +-----------------------------------------------MOD_PRED:N-ADJ----------------------------------------------+ | +------------------------COMP_to:ADJ-N-----------------------+ | +-----------MOD_POST:N-ADJ----------+--------------------COMP_to:ADJ-N--------------------+ | | +-----------OBJ:V-N----------+ +-------------COMP_to:ADJ-N-------------+ | | +-------------COMP_to:ADJ-N-------------+ | +-------SUBJ:V-N------+ | +--------MOD_ATT:N-N--------+ | | | +--------MOD_ATT:N-N--------+ | +---COMP_of:N-N---+ | | | +MOD:ADJ-+MOD_ATT:N+ | | | | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,promoters) MOD_PRED:N-ADJ (DNA,similar) MOD_POST:N-ADJ (DNA,similar) COMP_to:ADJ-N (similar,P3) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) OBJ:V-N (were,DNA) SUBJ:V-N (were,sequences) COMP_of:N-N (sequences,P1) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,P2) Parse 20 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ | +--------MOD_ATT:N-N--------+ +-----------MOD_PRED:N-ADJ----------+ | +----MOD_ATT:N-N---+ +--MOD_PRED:N-ADJ-+ | +----MOD_ATT:N-N---+ | +COMP_of:+ | | | +MOD_ATT:N+ | +MOD_PRED:N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) COMP_of:N-N (upstream,P1) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) Parse 21 +-------------COMP_to:ADJ-N-------------+ +-------------COMP_to:ADJ-N-------------+ | +--------MOD_ATT:N-N--------+ | +--------MOD_ATT:N-N--------+ +-----------MOD_PRED:N-ADJ----------+ | +----MOD_ATT:N-N---+ +--MOD_PRED:N-ADJ-+ | +----MOD_ATT:N-N---+ +-------COMP_of:N-N------+ | | | +MOD_ATT:N+ | +MOD_PRED:N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) COMP_to:ADJ-N (similar,promoters) COMP_of:N-N (DNA,P1) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (P3,similar) MOD_PRED:N-ADJ (P2,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) Parse 22 +-----------------------------------------------MOD_PRED:N-ADJ----------------------------------------------+ | +------------------------COMP_to:ADJ-N-----------------------+ | | +--------------------COMP_to:ADJ-N--------------------+ | | +-----------MOD_POST:N-ADJ----------+-------------COMP_to:ADJ-N-------------+ | | | +-----------OBJ:V-N----------+ | +--------MOD_ATT:N-N--------+ | | +-------------COMP_to:ADJ-N-------------+ | +-------SUBJ:V-N------+ | | +----MOD_ATT:N-N---+ | | | +--------MOD_ATT:N-N--------+ | | +COMP_of:+ | | | | +MOD_ATT:N+ | | | | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,promoters) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_POST:N-ADJ (DNA,similar) COMP_to:ADJ-N (similar,P3) COMP_of:N-N (upstream,P1) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) OBJ:V-N (were,DNA) SUBJ:V-N (were,sequences) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,P2) Parse 23 +-----------------------------------------------MOD_PRED:N-ADJ----------------------------------------------+ | +------------------------COMP_to:ADJ-N-----------------------+ | +-----------MOD_POST:N-ADJ----------+--------------------COMP_to:ADJ-N--------------------+ | +-------------COMP_to:ADJ-N-------------+ +-----------OBJ:V-N----------+ +-------------COMP_to:ADJ-N-------------+ | | | +--------MOD_ATT:N-N--------+ | +-------SUBJ:V-N------+ | +--------MOD_ATT:N-N--------+ | | | | +----MOD_ATT:N-N---+ | | +COMP_of:+ | | | +MOD:ADJ-+MOD_ATT:N+ | | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_POST:N-ADJ (DNA,similar) COMP_to:ADJ-N (similar,P3) COMP_of:N-N (upstream,P1) MOD_ATT:N-N (promoters,consensus) OBJ:V-N (were,DNA) SUBJ:V-N (were,sequences) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,GENEXXX) COMP_to:ADJ-N (similar,P2) Parse 24 +-----------------------------------------------MOD_PRED:N-ADJ----------------------------------------------+ | +------------------------COMP_to:ADJ-N-----------------------+ | | +--------------------COMP_to:ADJ-N--------------------+ | | +-----------MOD_POST:N-ADJ----------+-------------COMP_to:ADJ-N-------------+ | | | +-----------OBJ:V-N----------+ | +--------MOD_ATT:N-N--------+ | | +-------------COMP_to:ADJ-N-------------+ | +-------SUBJ:V-N------+ | | +----MOD_ATT:N-N---+ | | | +--------MOD_ATT:N-N--------+ | +---COMP_of:N-N---+ | | | | +MOD_ATT:N+ | | | | +MOD:ADJ-+MOD_ATT:N+ | | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,promoters) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_POST:N-ADJ (DNA,similar) COMP_to:ADJ-N (similar,P3) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-N (promoters,consensus) OBJ:V-N (were,DNA) SUBJ:V-N (were,sequences) COMP_of:N-N (sequences,P1) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,P2) Parse 25 +-----------------------------------------------MOD_PRED:N-ADJ----------------------------------------------+ | +------------------------COMP_to:ADJ-N-----------------------+ | +-----------MOD_POST:N-ADJ----------+--------------------COMP_to:ADJ-N--------------------+ | +-------------COMP_to:ADJ-N-------------+ +-----------OBJ:V-N----------+ +-------------COMP_to:ADJ-N-------------+ | | | +--------MOD_ATT:N-N--------+ | +-------SUBJ:V-N------+ | +--------MOD_ATT:N-N--------+ | | | | +----MOD_ATT:N-N---+ | +---COMP_of:N-N---+ | | | +MOD:ADJ-+MOD_ATT:N+ | | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_POST:N-ADJ (DNA,similar) COMP_to:ADJ-N (similar,P3) MOD_ATT:N-N (promoters,consensus) OBJ:V-N (were,DNA) SUBJ:V-N (were,sequences) COMP_of:N-N (sequences,P1) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,GENEXXX) COMP_to:ADJ-N (similar,P2) Parse 26 +-----------------------------------------------MOD_PRED:N-ADJ----------------------------------------------+ | +------------------------COMP_to:ADJ-N-----------------------+ | | +--------------------COMP_to:ADJ-N--------------------+ | | +-----------MOD_POST:N-ADJ----------+-------------COMP_to:ADJ-N-------------+ | | +-------------COMP_to:ADJ-N-------------+ +-----------OBJ:V-N----------+ | +--------MOD_ATT:N-N--------+ | | | +--------MOD_ATT:N-N--------+ | +-------SUBJ:V-N------+ | | +----MOD_ATT:N-N---+ | | | | +----MOD_ATT:N-N---+ | | +COMP_of:+ | | | | +MOD_ATT:N+ | | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_POST:N-ADJ (DNA,similar) COMP_to:ADJ-N (similar,P3) COMP_of:N-N (upstream,P1) MOD_ATT:N-N (promoters,consensus) OBJ:V-N (were,DNA) SUBJ:V-N (were,sequences) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,GENEXXX) COMP_to:ADJ-N (similar,P2) Parse 27 +-----------------------------------------------MOD_PRED:N-ADJ----------------------------------------------+ | +------------------------COMP_to:ADJ-N-----------------------+ | | +--------------------COMP_to:ADJ-N--------------------+ | | +-----------MOD_POST:N-ADJ----------+-------------COMP_to:ADJ-N-------------+ | | +-------------COMP_to:ADJ-N-------------+ +-----------OBJ:V-N----------+ | +--------MOD_ATT:N-N--------+ | | | +--------MOD_ATT:N-N--------+ | +-------SUBJ:V-N------+ | | +----MOD_ATT:N-N---+ | | | | +----MOD_ATT:N-N---+ | +---COMP_of:N-N---+ | | | | +MOD_ATT:N+ | | | | | +MOD_ATT:N+ | | | | | | | | | | | | | | | | DNA sequences upstream of P1 were similar to consensus GENEXXX dependent promoters , while P2 and P3 were similar to consensus GENEXXX dependent promoters . COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-ADJ (promoters,dependent) COMP_to:ADJ-N (similar,promoters) MOD_ATT:N-N (promoters,consensus) MOD_PRED:N-ADJ (DNA,similar) MOD_ATT:N-N (promoters,GENEXXX) MOD_POST:N-ADJ (DNA,similar) COMP_to:ADJ-N (similar,P3) MOD_ATT:N-N (promoters,consensus) OBJ:V-N (were,DNA) SUBJ:V-N (were,sequences) COMP_of:N-N (sequences,P1) MOD_ATT:N-ADJ (promoters,dependent) MOD_ATT:N-N (promoters,GENEXXX) COMP_to:ADJ-N (similar,P2) PMID: 9535080-2 Sentence 34 The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . Parse 0 +-------------------------COMP_for:V_PASS-N------------------------+ +-------------------COMP_for:V_PASS-N------------------+ | +--------------COMP_for:V_PASS-N-------------+ | | +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+ | | | +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+ | | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) COMP_for:V_PASS-N (preceded,GENEXXX) MOD_ATT:N-N (promoter,potential) COMP_of:N-N (point,transcription) COMP_for:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-N (sequences,promoter) COMP_for:V_PASS-N (preceded,GENEXXX) Parse 1 +-------------------------COMP_for:V_PASS-N------------------------+ +-------------------COMP_for:V_PASS-N------------------+ | +--------------COMP_for:V_PASS-N-------------+ | | +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+ | | | +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+ | | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) COMP_for:V_PASS-N (preceded,GENEXXX) COMP_of:N-N (point,transcription) COMP_for:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-N (sequences,promoter) MOD_ATT:N-ADJ (promoter,potential) COMP_for:V_PASS-N (preceded,GENEXXX) Parse 2 +-------------------------COMP_for:V_PASS-N------------------------+ +-------------------COMP_for:V_PASS-N------------------+ | +--------------COMP_for:V_PASS-N-------------+ | | +--------COMP_by:V_PASS-N-------+ | | | +-------SUBJ:V_PASS-N------+ +---MOD_ATT:N-ADJ--+ | | | +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) COMP_for:V_PASS-N (preceded,GENEXXX) COMP_of:N-N (point,transcription) COMP_for:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-N (sequences,promoter) MOD_ATT:N-ADJ (sequences,potential) COMP_for:V_PASS-N (preceded,GENEXXX) Parse 3 +-------------------------COMP_for:V_PASS-N------------------------+ +-------------------COMP_for:V_PASS-N------------------+ | +--------------COMP_for:V_PASS-N-------------+ | | +--------COMP_by:V_PASS-N-------+ | | | +-------SUBJ:V_PASS-N------+ +----MOD_ATT:N-N---+ | | | +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+ | | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) COMP_for:V_PASS-N (preceded,GENEXXX) MOD_ATT:N-N (sequences,potential) COMP_of:N-N (point,transcription) COMP_for:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-N (sequences,promoter) COMP_for:V_PASS-N (preceded,GENEXXX) Parse 4 +--------------COMP_for:V_PASS-N-------------+ +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+ +--------APPOS--------+ +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+ +--APPOS--+ | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) MOD_ATT:N-N (promoter,potential) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (sequences,promoter) COMP_of:N-N (point,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:V_PASS-N (preceded,GENEXXX) Parse 5 +--------------COMP_for:V_PASS-N-------------+ +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+ +--------APPOS--------+ +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+ +--APPOS--+ | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (sequences,promoter) COMP_of:N-N (point,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-ADJ (promoter,potential) COMP_for:V_PASS-N (preceded,GENEXXX) Parse 6 +--------------COMP_for:V_PASS-N-------------+ +--------COMP_by:V_PASS-N-------+ | +-------SUBJ:V_PASS-N------+ +---MOD_ATT:N-ADJ--+ +--------APPOS--------+ +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+ +--APPOS--+ | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (sequences,promoter) COMP_of:N-N (point,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-ADJ (sequences,potential) COMP_for:V_PASS-N (preceded,GENEXXX) Parse 7 +--------------COMP_for:V_PASS-N-------------+ +--------COMP_by:V_PASS-N-------+ | +-------SUBJ:V_PASS-N------+ +----MOD_ATT:N-N---+ +--------APPOS--------+ +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+ +--APPOS--+ | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) MOD_ATT:N-N (sequences,potential) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (sequences,promoter) COMP_of:N-N (point,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:V_PASS-N (preceded,GENEXXX) Parse 8 +-----------COMP_for:N-N-----------+ +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+-----COMP_for:N-N-----+ | +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (promoter,potential) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) Parse 9 +-----------COMP_for:N-N-----------+ +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+-----COMP_for:N-N-----+ | +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) COMP_for:N-N (sequences,GENEXXX) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) MOD_ATT:N-ADJ (promoter,potential) Parse 10 +--------COMP_by:V_PASS-N-------+-----------COMP_for:N-N-----------+ +-------SUBJ:V_PASS-N------+ +---MOD_ATT:N-ADJ--+-----COMP_for:N-N-----+ | +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) COMP_for:N-N (sequences,GENEXXX) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) MOD_ATT:N-ADJ (sequences,potential) Parse 11 +--------COMP_by:V_PASS-N-------+-----------COMP_for:N-N-----------+ +-------SUBJ:V_PASS-N------+ +----MOD_ATT:N-N---+-----COMP_for:N-N-----+ | +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,potential) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) Parse 12 +-------------------------COMP_by:V_PASS-N-------------------------+ +-------------------COMP_by:V_PASS-N-------------------+ | | +--------------------MOD_ATT:N-ADJ--------------------+ | +--------------MOD_ATT:N-ADJ--------------+ | +--------COMP_by:V_PASS-N-------+ | | +-------SUBJ:V_PASS-N------+ +---MOD_ATT:N-ADJ--+ | | +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-ADJ (sequences,potential) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-ADJ (GENEXXX,potential) MOD_ATT:N-N (sequences,promoter) MOD_ATT:N-ADJ (GENEXXX,potential) Parse 13 +-------------------------COMP_by:V_PASS-N-------------------------+ +-------------------COMP_by:V_PASS-N-------------------+ | +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+ | | +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) MOD_ATT:N-N (promoter,potential) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-N (sequences,promoter) COMP_for:N-N (sequences,GENEXXX) Parse 14 +-------------------------COMP_by:V_PASS-N-------------------------+ +-------------------COMP_by:V_PASS-N-------------------+ | +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+ | | +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) MOD_ATT:N-ADJ (promoter,potential) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-N (sequences,promoter) COMP_for:N-N (sequences,GENEXXX) Parse 15 +-------------------------COMP_by:V_PASS-N-------------------------+ +-------------------COMP_by:V_PASS-N-------------------+ | +--------COMP_by:V_PASS-N-------+ | | +-------SUBJ:V_PASS-N------+ +----MOD_ATT:N-N---+ | | +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,GENEXXX) MOD_ATT:N-N (sequences,potential) COMP_by:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-N (sequences,promoter) COMP_for:N-N (sequences,GENEXXX) Parse 16 +-------------------------COMP_by:V_PASS-N-------------------------+ +-------------------COMP_by:V_PASS-N-------------------+ | +--------COMP_by:V_PASS-N-------+ | | +-------SUBJ:V_PASS-N------+ +---MOD_ATT:N-ADJ--+ | | +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) MOD_ATT:N-ADJ (sequences,potential) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) MOD_ATT:N-N (sequences,promoter) COMP_for:N-N (sequences,GENEXXX) Parse 17 +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+ +--------APPOS--------+ +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+COMP_for:N-N+--APPOS--+ | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) MOD_ATT:N-N (promoter,potential) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (point,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) Parse 18 +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+ +--------APPOS--------+ +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+COMP_for:N-N+--APPOS--+ | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (point,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) MOD_ATT:N-ADJ (promoter,potential) Parse 19 +--------COMP_by:V_PASS-N-------+ +-------SUBJ:V_PASS-N------+ +---MOD_ATT:N-ADJ--+ +--------APPOS--------+ +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+COMP_for:N-N+--APPOS--+ | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (point,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) MOD_ATT:N-ADJ (sequences,potential) Parse 20 +--------COMP_by:V_PASS-N-------+ +-------SUBJ:V_PASS-N------+ +----MOD_ATT:N-N---+ +--------APPOS--------+ +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+COMP_for:N-N+--APPOS--+ | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) MOD_ATT:N-N (sequences,potential) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (point,transcription) APPOS (GENEXXX,GENEXXX) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) Parse 21 +---------------APPOS--------------+ +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+---------APPOS--------+ | +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) APPOS (sequences,GENEXXX) APPOS (sequences,GENEXXX) MOD_ATT:N-N (promoter,potential) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) Parse 22 +---------------APPOS--------------+ +-------SUBJ:V_PASS-N------+--------COMP_by:V_PASS-N-------+---------APPOS--------+ | +MOD_A+-COMP_of:N-N+ | +MOD_ATT:+MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) APPOS (sequences,GENEXXX) APPOS (sequences,GENEXXX) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) MOD_ATT:N-ADJ (promoter,potential) Parse 23 +--------COMP_by:V_PASS-N-------+---------------APPOS--------------+ +-------SUBJ:V_PASS-N------+ +---MOD_ATT:N-ADJ--+---------APPOS--------+ | +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) APPOS (sequences,GENEXXX) APPOS (sequences,GENEXXX) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) MOD_ATT:N-ADJ (sequences,potential) Parse 24 +--------COMP_by:V_PASS-N-------+---------------APPOS--------------+ +-------SUBJ:V_PASS-N------+ +----MOD_ATT:N-N---+---------APPOS--------+ | +MOD_A+-COMP_of:N-N+ | | +MOD_ATT:N+COMP_for:N-N+ | | | | | | | | | | | | The start point of transcription is preceded by potential promoter sequences for GENEXXX , GENEXXX and GENEXXX . SUBJ:V_PASS-N (preceded,point) APPOS (sequences,GENEXXX) APPOS (sequences,GENEXXX) MOD_ATT:N-N (sequences,potential) COMP_of:N-N (point,transcription) COMP_by:V_PASS-N (preceded,sequences) MOD_ATT:N-N (point,start) COMP_for:N-N (sequences,GENEXXX) MOD_ATT:N-N (sequences,promoter) PMID: 9537387-1 Sentence 35 The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . Parse 0 +------------------------------SUBJ:V_PASS-N-----------------------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+ | | +MOD_ATT:N-ADJ+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (recognized,promoter) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 1 +---MOD_ATT:N-ADJ---+ +------------------------------SUBJ:V_PASS-N-----------------------------+----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) MOD_ATT:N-N (factor,stress) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (recognized,promoter) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 2 +------------------------------SUBJ:V_PASS-N-----------------------------+----------COMP_by:ADV-N---------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+ | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (S,B) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 3 +------------------------------SUBJ:V_PASS-N-----------------------------+----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+ +---------------------APPOS--------------------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 4 +------------------------------SUBJ:V_PASS-N-----------------------------+ +---MOD_ATT:N-ADJ---+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ | +--------COMP_by:V_PASS-N--------+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (recognized,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 5 +------------------------------SUBJ:V_PASS-N-----------------------------+ +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+ +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (initiation,S) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 6 +------------------------------SUBJ:V_PASS-N-----------------------------+----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 7 +------------------------------SUBJ:V_PASS-N-----------------------------+----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+ +-------------APPOS------------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) APPOS (transcription,S) MOD:V_PASS-ADV (recognized,presumably) Parse 8 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +---------------------------------APPOS--------------------------------+ +----------COMP_by:ADV-N---------+ | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 9 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-----------------------------------------------------APPOS-----------------------------------------------------+ | | +--------------------COMP_at:N-N--------------------+ | +----------COMP_by:ADV-N---------+ | +----------COMP_at:N-N---------+ | | +--------COMP_by:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (site,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 10 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ | +--------OBJ:V-N--------+ +-----------------------------------COMP_at:V_PASS-N----------------------------------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_at:V_PASS-N (required,promoter) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:V_PASS-N (required,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 11 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:V_PASS-N (required,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 12 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+----------------------------------COMP_for:V_PASS-N----------------------------------+ | +--------OBJ:V-N--------+ +------------------------COMP_for:V_PASS-N-----------------------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_for:V_PASS-N (required,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) COMP_for:V_PASS-N (required,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 13 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +--------------------COMP_at:N-N--------------------+-------------------APPOS-------------------+ | | +----------COMP_at:N-N---------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) OBJ:V-N (preceding,site) COMP_at:N-N (transcription,S) MOD:V_PASS-ADV (recognized,presumably) Parse 14 +-------------------------------------------SUBJ:V-N------------------------------------------+ | +--------------------------------SUBJ:V-N--------------------------------+ +---MOD_ATT:N-ADJ---+ | | +-------OBJ:V-N-------+ +-----------COMP_by:V-N----------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_by:V-N (recognized,factor) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (S,A) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,promoter) MOD:V-ADV (recognized,presumably) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (recognized,S) OBJ:V-N (preceding,start) Parse 15 +--------------SUBJ:V-N--------------+ +----------------------------------------SUBJ:V_PASS-N----------------------------------------+ +------------OBJ:V-N-----------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +--------APPOS-------+ | +MOD_ATT:N-ADJ+ +--------COMP_by:V_PASS-N--------+ +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V_PASS-N (recognized,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) SUBJ:V-N (required,stress) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 16 +-------------------------------------------SUBJ:V-N------------------------------------------+ | +--------------------------------SUBJ:V-N--------------------------------+ | | +-------OBJ:V-N-------+ +-----------COMP_by:V-N----------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_by:V-N (recognized,factor) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) OBJ:V-N (was,start) APPOS (S,A) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,promoter) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (recognized,S) OBJ:V-N (preceding,start) Parse 17 +-------------SUBJ:V_PASS-N-------------+ +-----------------------------------COMP_at:V_PASS-N----------------------------------+ +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_at:V_PASS-N (required,promoter) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) MOD_ATT:N-ADJ (start,downstream) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 18 +---------------------------------------------------------------------APPOS--------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (site,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 19 +---------------------------------------------------------------------APPOS--------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (site,GENEXXX) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 20 +------------------------------------------COMP_by:V-N------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 21 +------------------------------------------COMP_by:V-N------------------------------------------+ +----------------------------------COMP_for:V_PASS-N----------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +------------------------COMP_for:V_PASS-N-----------------------+ | | +-------OBJ:V-N-------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) COMP_for:V_PASS-N (required,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_for:V_PASS-N (required,promoter) MOD:V-ADV (was,presumably) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 22 +------------------------------SUBJ:V_PASS-N-----------------------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +MOD_ATT:N-ADJ+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (recognized,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 23 +------------------------------SUBJ:V_PASS-N-----------------------------+----------COMP_by:ADV-N---------+ +-------------APPOS------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) APPOS (transcription,S) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 24 +------------------------------SUBJ:V_PASS-N-----------------------------+ +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (recognized,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 25 +------------------------------SUBJ:V_PASS-N-----------------------------+----------COMP_by:ADV-N---------+ +---------------------APPOS--------------------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (initiation,S) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,promoter) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 26 +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ +---------------------------SUBJ:V-N--------------------------+ | +--------------------COMP_at:N-N--------------------+ | | +---MOD_ATT:N-ADJ---+ +----------COMP_at:N-N---------+ | | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,transcription) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) SUBJ:V-N (preceding,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) COMP_at:N-N (transcription,promoter) Parse 27 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +--------------------------------------------------------------SUBJ:V-N--------------------------------------------------------------+ | +------------SUBJ:V_PASS-N-----------+-----------------------------------COMP_at:V_PASS-N----------------------------------+ | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ +------------------------COMP_at:V_PASS-N------------------------+ | | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) COMP_at:V_PASS-N (required,promoter) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) APPOS (site,S) COMP_at:V_PASS-N (required,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) SUBJ:V-N (preceding,stress) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_at:V_PASS-N (required,S) COMP_by:ADV-N (recognized,factor) Parse 28 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +---------------------------------APPOS--------------------------------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 29 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +---------------------------------APPOS--------------------------------+ | +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) APPOS (site,S) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) OBJ:V-N (preceding,start) Parse 30 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-----------------------------------------------------APPOS-----------------------------------------------------+ | +-------------------------------APPOS-------------------------------+ | +----------COMP_by:ADV-N---------+ +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,promoter) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (initiation,S) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 31 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-----------------------------------------------------APPOS-----------------------------------------------------+ | +-------------------------------APPOS-------------------------------+ | +----------COMP_by:ADV-N---------+ +---------------------APPOS--------------------+ | | +--------COMP_by:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,promoter) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (initiation,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 32 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +---------------------------------APPOS--------------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) COMP_at:V_PASS-N (required,site) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) APPOS (site,S) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 33 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | +--------------------COMP_at:N-N--------------------+ | | | | +----------COMP_at:N-N---------+ | | | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,initiation) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (was,transcription) COMP_at:N-N (transcription,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) COMP_by:N-N (initiation,factor) Parse 34 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | | +--------------------COMP_at:N-N--------------------+ | | | | | +----------COMP_at:N-N---------+ | | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,initiation) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_by:V_PASS-N (required,factor) MOD:V-ADV (was,presumably) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) OBJ:V-N (was,transcription) COMP_at:N-N (transcription,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) Parse 35 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +-----------------------------------SUBJ:V-N----------------------------------+ | | | +----------------------------COMP_of:N-N----------------------------+ | | | | +------------------COMP_of:N-N-----------------+ | | +-------OBJ:V-N-------+ | | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,initiation) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) COMP_of:N-N (initiation,promoter) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,S) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,initiation) COMP_by:N-N (initiation,factor) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 36 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-----------------------------------------------------APPOS-----------------------------------------------------+ | | +--------------------COMP_at:N-N--------------------+ | | | +----------COMP_at:N-N---------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (site,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 37 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,promoter) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 38 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | | +--------------------COMP_at:N-N--------------------+ +-------OBJ:V-N-------+ | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) COMP_by:V_PASS-N (required,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) Parse 39 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-----------------------------------SUBJ:V-N----------------------------------+ | +----------------------------COMP_at:N-N----------------------------+ | +----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_at:N-N (initiation,promoter) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (preceding,initiation) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 40 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | | +---------------------------SUBJ:V-N--------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:V-N (preceding,factor) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (preceding,transcription) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) MOD:V_PASS-ADV (recognized,presumably) Parse 41 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-----------------------------------SUBJ:V-N----------------------------------+ | | +---MOD_ATT:N-ADJ---+ | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,initiation) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) Parse 42 +-----------------------------------SUBJ:V-N----------------------------------+ +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ +----------------------------COMP_at:N-N----------------------------+ | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (preceding,initiation) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (initiation,promoter) COMP_by:ADV-N (recognized,factor) Parse 43 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | +---------------------------SUBJ:V-N--------------------------+ | +--------COMP_by:V_PASS-N--------+ | | +--------------------COMP_at:N-N--------------------+ | | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) OBJ:V-N (was,transcription) SUBJ:V-N (preceding,transcription) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) Parse 44 +----------COMP_by:ADV-N---------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 45 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 46 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 47 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ | +--------OBJ:V-N--------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 48 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ +----------COMP_by:ADV-N---------+ +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) APPOS (initiation,S) OBJ:V-N (preceding,site) APPOS (initiation,promoter) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) MOD:V_PASS-ADV (recognized,presumably) Parse 49 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ | +--------OBJ:V-N--------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 50 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ | +--------OBJ:V-N--------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:V_PASS-N (required,site) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 51 +----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 52 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-------------------APPOS-------------------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 53 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-------------------APPOS-------------------+ | +---MOD_ATT:N-ADJ---+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 54 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +-------------APPOS------------+ +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) APPOS (transcription,promoter) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 55 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+ | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 56 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) APPOS (transcription,promoter) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 57 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ | +---MOD_ATT:N-ADJ---+ +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ +--------COMP_by:V_PASS-N--------+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (site,downstream) APPOS (initiation,promoter) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) APPOS (initiation,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 58 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-----------------------APPOS-----------------------+ | +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 59 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-----------------------------------SUBJ:V-N----------------------------------+ | +----------------------------COMP_of:N-N----------------------------+ | +----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+ | +-------------APPOS------------+ | | +--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (preceding,site) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,initiation) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-ADJ (factor,vegetative) APPOS (transcription,S) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 60 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +--------------------COMP_at:N-N--------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +----------COMP_at:N-N---------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) COMP_by:ADV-N (recognized,factor) Parse 61 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 62 +--------------SUBJ:V-N--------------+ +----------COMP_by:ADV-N---------+ +------------OBJ:V-N-----------+ | +----------------------------------------SUBJ:V_PASS-N----------------------------------------+--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +--------APPOS-------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V_PASS-N (recognized,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) SUBJ:V-N (required,stress) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 63 +-----------SUBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +--------OBJ:V-N--------+ | +----------------------------------------SUBJ:V_PASS-N----------------------------------------+--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V_PASS-N (recognized,S) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 64 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +----------------------------COMP_of:N-N----------------------------+ +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) APPOS (initiation,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 65 +----------------------------COMP_of:N-N----------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-------------APPOS------------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,promoter) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 66 +------------------------------------------COMP_by:V-N------------------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------------APPOS------------+ | | +-------OBJ:V-N-------+ | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,promoter) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 67 +----------------------------COMP_of:N-N----------------------------+ +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | +-------------APPOS------------+ | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,promoter) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 68 +---------------------------------------------------------------------APPOS--------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (site,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) COMP_at:V_PASS-N (required,site) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 69 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) APPOS (initiation,S) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 70 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | | +-----------------------APPOS-----------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +-------------APPOS------------+ | | +-------OBJ:V-N-------+ | | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:V-N (preceding,factor) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,site) APPOS (transcription,S) MOD:V_PASS-ADV (recognized,presumably) Parse 71 +-------------SUBJ:V_PASS-N-------------+ +-------OBJ:V-N-------+ | +-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V_PASS-N--------+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 72 +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 73 +-------------------------------APPOS-------------------------------+ +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) APPOS (initiation,S) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 74 +------------------------------------------COMP_by:V-N------------------------------------------+ +-----------------------APPOS-----------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-------------APPOS------------+ | | +-------OBJ:V-N-------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 75 +------------------------------------------COMP_by:V-N------------------------------------------+ +-----------------------APPOS-----------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +---MOD_ATT:N-ADJ---+ +-------------APPOS------------+ | | +-------OBJ:V-N-------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 76 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) MOD:V_PASS-ADV (recognized,presumably) Parse 77 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ +----------------------------COMP_at:N-N----------------------------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +------------------COMP_at:N-N-----------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) SUBJ:V-N (preceding,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (initiation,promoter) COMP_by:ADV-N (recognized,factor) Parse 78 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +----------------------------------COMP_for:V_PASS-N----------------------------------+ +-------OBJ:V-N-------+ | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) COMP_for:V_PASS-N (required,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) COMP_by:V_PASS-N (required,factor) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 79 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +-------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ | | +--------------------COMP_at:N-N--------------------+ +---------------------------SUBJ:V-N---------------------------+ | +---MOD_ATT:N-ADJ---+ | +----------COMP_at:N-N---------+ | | +-------OBJ:V-N-------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-----------COMP_by:V-N----------+ | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) OBJ:V-N (recognized,initiation) APPOS (site,S) SUBJ:V-N (recognized,preceding) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) COMP_at:N-N (transcription,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) COMP_at:N-N (transcription,promoter) COMP_by:V-N (recognized,factor) Parse 80 +-----------SUBJ:V-N----------+ +--------------------COMP_at:N-N--------------------+ +----------COMP_by:ADV-N---------+ +--------OBJ:V-N--------+ | +----------COMP_at:N-N---------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +-----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (recognized,site) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (site,S) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 81 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +---------------------------------------------APPOS---------------------------------------------+ | +---MOD_ATT:N-ADJ---+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (factor,GENEXXX) APPOS (site,S) APPOS (transcription,S) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 82 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-----------------------------------------------------APPOS-----------------------------------------------------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (initiation,S) Parse 83 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-----------------------------------------------------APPOS-----------------------------------------------------+ | +---MOD_ATT:N-ADJ---+ +----------------------------COMP_of:N-N----------------------------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (initiation,S) Parse 84 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-----------------------------------------------------APPOS-----------------------------------------------------+ | | +-----------------------APPOS-----------------------+ | +----------COMP_by:ADV-N---------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) APPOS (transcription,S) MOD:V_PASS-ADV (recognized,presumably) Parse 85 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ | +--------OBJ:V-N--------+ | +-----------------------------------------------------APPOS-----------------------------------------------------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 86 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +---MOD_ATT:N-ADJ---+ +----------------------------------COMP_for:V_PASS-N----------------------------------+ +-------OBJ:V-N-------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) COMP_for:V_PASS-N (required,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) COMP_by:V_PASS-N (required,factor) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 87 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ | +-----------------------------------------------------APPOS-----------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ | | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 88 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------COMP_of:N-N----------------------------+ | | +---MOD_ATT:N-ADJ---+ | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,promoter) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) COMP_by:V_PASS-N (required,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 89 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +-------------------------------------------------------APPOS-------------------------------------------------------+ | | +---------------------------------------------APPOS--------------------------------------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------OBJ:V-N--------+ | | | | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) COMP_at:V_PASS-N (required,site) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 90 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | +----------------------------COMP_at:N-N----------------------------+ | | | | +------------------COMP_at:N-N-----------------+ | | | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) COMP_by:V_PASS-N (required,factor) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) COMP_at:N-N (initiation,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) Parse 91 +------------------------------SUBJ:V_PASS-N-----------------------------+ +-------------------APPOS-------------------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V_PASS-N (recognized,factor) APPOS (initiation,S) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V_PASS-N (recognized,promoter) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 92 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-----------------------------------------------------APPOS-----------------------------------------------------+ | +----------------------------COMP_of:N-N----------------------------+ | +----------COMP_by:ADV-N---------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) APPOS (transcription,S) MOD:V_PASS-ADV (recognized,presumably) APPOS (initiation,S) Parse 93 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +----------------------------COMP_at:N-N----------------------------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ | +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_at:N-N (initiation,promoter) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 94 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +----------------------------COMP_of:N-N----------------------------+ +-------OBJ:V-N-------+ | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,promoter) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 95 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +----------------------------COMP_at:N-N----------------------------+ +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (initiation,site) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) COMP_by:ADV-N (recognized,factor) Parse 96 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +-----------------------------------SUBJ:V-N----------------------------------+ +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) Parse 97 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ +--------COMP_by:V_PASS-N--------+ | +--------------------COMP_at:N-N--------------------+ +------------------SUBJ:V-N------------------+ +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (was,preceding) APPOS (site,S) OBJ:V-N (was,transcription) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_at:N-N (transcription,promoter) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (start,downstream) Parse 98 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-----------------------------------COMP_at:V_PASS-N----------------------------------+ +-------OBJ:V-N-------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_at:V_PASS-N (required,promoter) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:V_PASS-N (required,factor) Parse 99 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +-----------------------------------SUBJ:V-N----------------------------------+ | | | +----------------------------COMP_at:N-N----------------------------+ | +-------OBJ:V-N-------+ | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) COMP_by:V_PASS-N (required,factor) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) COMP_at:N-N (initiation,promoter) Parse 100 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+----------COMP_by:ADV-N---------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) APPOS (site,promoter) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 101 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 102 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+----------COMP_by:ADV-N---------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) APPOS (site,promoter) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 103 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-------------------APPOS-------------------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 104 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ | +---------------------APPOS--------------------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (initiation,S) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 105 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-----------------------APPOS-----------------------+ +----------COMP_by:ADV-N---------+ | +-------------APPOS------------+ | +--------COMP_by:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 106 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-------------------APPOS-------------------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 107 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-----------------------APPOS-----------------------+ +----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 108 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-------------------APPOS-------------------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 109 +--------------SUBJ:V-N--------------+-------------------------------------COMP_for:V-N------------------------------------+ +----------COMP_by:ADV-N---------+ +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +-----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (recognized,site) APPOS (S,B) SUBJ:V-N (required,stress) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_for:V-N (required,promoter) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 110 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-----------------------APPOS-----------------------+ +----------COMP_by:ADV-N---------+ | +-------------APPOS------------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) APPOS (transcription,promoter) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 111 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ | +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) APPOS (initiation,S) APPOS (initiation,promoter) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 112 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +--------COMP_by:V_PASS-N--------+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,promoter) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (initiation,S) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 113 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ +----------COMP_by:ADV-N---------+ +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) APPOS (initiation,S) APPOS (initiation,promoter) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 114 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ | +---------------------APPOS--------------------+ +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (site,start) APPOS (initiation,S) APPOS (initiation,promoter) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 115 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 116 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ | +---MOD_ATT:N-ADJ---+ +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ | | +--------COMP_by:V_PASS-N--------+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) APPOS (initiation,S) APPOS (initiation,promoter) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 117 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-----------------------APPOS-----------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 118 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) OBJ:V-N (preceding,start) Parse 119 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------SUBJ:V_PASS-N-----------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) APPOS (site,S) COMP_at:V_PASS-N (required,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 120 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 121 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) Parse 122 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 123 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 124 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) COMP_at:V_PASS-N (required,site) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 125 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ +----------COMP_by:ADV-N---------+ +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,promoter) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (initiation,S) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 126 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ +----------COMP_by:ADV-N---------+ +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) APPOS (initiation,S) APPOS (initiation,promoter) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 127 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +----------------------------COMP_of:N-N----------------------------+-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | +------------------COMP_of:N-N-----------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 128 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ | +---MOD_ATT:N-ADJ---+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) APPOS (transcription,promoter) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 129 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ | +--------OBJ:V-N--------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 130 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 131 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 132 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +---MOD_ATT:N-ADJ---+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ +--------COMP_by:V_PASS-N--------+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 133 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+----------COMP_by:ADV-N---------+ +---------------------APPOS--------------------+ +--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (initiation,S) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 134 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +---------------------APPOS--------------------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ +--------COMP_by:V_PASS-N--------+ +MOD_AT+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (preceding,site) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (initiation,S) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 135 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+----------COMP_by:ADV-N---------+ +---MOD_ATT:N-ADJ---+ +---------------------APPOS--------------------+ +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (initiation,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 136 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:V_PASS-N (required,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 137 +----------------------------------------SUBJ:V_PASS-N----------------------------------------+ +--------------SUBJ:V-N--------------+ | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +--------APPOS-------+ +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) SUBJ:V_PASS-N (recognized,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (required,stress) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 138 +----------------------------------------SUBJ:V_PASS-N----------------------------------------+ +-----------SUBJ:V-N----------+ | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) SUBJ:V_PASS-N (recognized,S) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) SUBJ:V-N (required,sigma) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-ADJ (site,upstream) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 139 +-----------SUBJ:V-N----------+ +----------------------------------------SUBJ:V_PASS-N----------------------------------------+----------COMP_by:ADV-N---------+ +--------OBJ:V-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) SUBJ:V_PASS-N (recognized,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (initiation,site) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) Parse 140 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +--------------------COMP_at:N-N--------------------+ | | | +----------COMP_at:N-N---------+ | +-------OBJ:V-N-------+ | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) COMP_at:N-N (transcription,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) COMP_by:N-N (initiation,factor) Parse 141 +-------------SUBJ:V_PASS-N-------------+ +----------------------------COMP_at:N-N----------------------------+ +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (initiation,site) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) Parse 142 +------------------------------------------COMP_by:V-N------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-----------------------------------COMP_at:V_PASS-N----------------------------------+ | +-------OBJ:V-N-------+ | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_at:V_PASS-N (required,promoter) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:V_PASS-N (required,site) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) Parse 143 +-------------SUBJ:V_PASS-N-------------+ +----------------------------COMP_at:N-N----------------------------+ +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (initiation,site) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) COMP_by:ADV-N (recognized,factor) Parse 144 +---------------------------------------------------------------------APPOS--------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (site,GENEXXX) SUBJ:V-N (was,site) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (site,upstream) COMP_at:V_PASS-N (required,site) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (start,downstream) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 145 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) APPOS (initiation,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 146 +---------------------------------------------------------------------APPOS--------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | | | | +-------OBJ:V-N-------+ | | | +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (site,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,site) APPOS (site,promoter) Parse 147 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | +-------------------------------APPOS-------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +---------------------APPOS--------------------+ | | +-------OBJ:V-N-------+ | | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,site) Parse 148 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +----------------------------COMP_at:N-N----------------------------+ +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | +---MOD_ATT:N-ADJ---+ +------------------COMP_at:N-N-----------------+ | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) COMP_at:N-N (initiation,S) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) Parse 149 +-----------------------APPOS-----------------------+ +-------------SUBJ:V_PASS-N-------------+ +-------------APPOS------------+ | +-------OBJ:V-N-------+ | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 150 +------------------------------------------COMP_by:V-N------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-ADJ (site,upstream) COMP_at:V_PASS-N (required,site) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) OBJ:V-N (was,start) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) COMP_for:V_PASS-N (required,initiation) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) OBJ:V-N (preceding,start) Parse 151 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ | +--------OBJ:V-N--------+ +----------------------------------COMP_for:V_PASS-N----------------------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_for:V_PASS-N (required,promoter) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 152 +-----------------------------------SUBJ:V-N----------------------------------+ | +--------------------COMP_at:N-N--------------------+ | +-------------SUBJ:V_PASS-N-------------+----------COMP_by:ADV-N---------+ | +----------COMP_at:N-N---------+ | | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:ADV-N (recognized,factor) OBJ:V-N (was,start) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V-N (preceding,initiation) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,promoter) COMP_at:N-N (transcription,S) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 153 +--------------SUBJ:V-N--------------+ +------------OBJ:V-N-----------+ | +--------------------COMP_at:N-N--------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +-----------SUBJ:V_PASS-N----------+--------COMP_by:V_PASS-N--------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (recognized,site) APPOS (S,B) SUBJ:V-N (required,stress) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 154 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +----------------------------------COMP_for:V_PASS-N----------------------------------+ +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) COMP_for:V_PASS-N (required,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_by:V_PASS-N (required,factor) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 155 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +----------------------------COMP_at:N-N----------------------------+ +------------------SUBJ:V-N------------------+ | +------------------COMP_at:N-N-----------------+ | +----------OBJ:V-N----------+ | | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | +--------COMP_by:V_PASS-N--------+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | | +MOD_+APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) MOD_ATT:N-N (site,start) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) SUBJ:V-N (was,preceding) COMP_at:N-N (initiation,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_at:N-N (initiation,promoter) Parse 156 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +----------------------------COMP_of:N-N----------------------------+ | | +---MOD_ATT:N-ADJ---+ +------------------COMP_of:N-N-----------------+ | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V_PASS-N--------+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) COMP_of:N-N (initiation,promoter) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) Parse 157 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------APPOS--------------------------------------------------------------------------------+ | +--------------------------------------------------------COMP_at:N-N-------------------------------------------------------+ | | +------------------------------------------COMP_at:N-N------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | | +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (stress,S) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) COMP_at:N-N (stress,promoter) COMP_by:ADV-N (recognized,factor) Parse 158 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +---------------------------------------------APPOS---------------------------------------------+ | | +-----------------------APPOS-----------------------+ | +--------COMP_by:V_PASS-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (transcription,promoter) COMP_at:N-N (transcription,site) MOD_ATT:N-N (site,start) APPOS (S,B) APPOS (transcription,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (transcription,S) Parse 159 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +---------------------------------APPOS--------------------------------+ | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) APPOS (site,S) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 160 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | | +---------------------------------APPOS--------------------------------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) APPOS (site,S) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 161 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ | +--------OBJ:V-N--------+ | +-----------------------------------------------------APPOS-----------------------------------------------------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 162 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ | +---------------------------------------------APPOS---------------------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +-----------------------APPOS-----------------------+ | | +------------OBJ:V-N-----------+ | +-------------APPOS------------+ | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (transcription,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 163 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ | +---------------------------------APPOS--------------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) APPOS (site,S) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) OBJ:V-N (preceding,start) Parse 164 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +---------------------------------APPOS--------------------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) OBJ:V-N (preceding,start) Parse 165 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ +----------------------------COMP_of:N-N----------------------------+ | | +--------OBJ:V-N--------+ | +------------------COMP_of:N-N-----------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,S) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) Parse 166 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ | | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 167 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------SUBJ:V_PASS-N--------+ | +---------------------------------APPOS--------------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) APPOS (site,S) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 168 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ +---------------------------------------------APPOS---------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+ | | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (transcription,S) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 169 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +-----------SUBJ:V-N----------+ +----------------------------COMP_at:N-N----------------------------+ | | +--------OBJ:V-N--------+ | +------------------COMP_at:N-N-----------------+ | | | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +-----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+MOD:V_+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,site) MOD_ATT:N-N (sigma,stress) MOD:V_PASS-ADV (recognized,by) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) COMP_at:N-N (initiation,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_at:N-N (initiation,promoter) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) Parse 170 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +-------------------------------------------------------APPOS-------------------------------------------------------+ | | +---------------------------------------------APPOS--------------------------------------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) APPOS (sigma,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) OBJ:V-N (preceding,start) Parse 171 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | +--------------------COMP_at:N-N--------------------+ | | | | +----------COMP_at:N-N---------+ | | +--------COMP_by:V_PASS-N--------+ | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) SUBJ:V_PASS-N (recognized,transcription) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) OBJ:V-N (was,transcription) COMP_at:N-N (transcription,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) Parse 172 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | +----------------------------COMP_at:N-N----------------------------+ | | | +------------------COMP_at:N-N-----------------+ | | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V_PASS-N--------+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,initiation) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) OBJ:V-N (was,initiation) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,S) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) Parse 173 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------APPOS--------------------------------------------------------------------------------+ | +-----------------------------------------------------------APPOS----------------------------------------------------------+ | | +------------------------------------------------APPOS------------------------------------------------+ | | | +------------------------------------------COMP_at:N-N------------------------------------------+ | | | | +------------------------------COMP_of:N-N-----------------------------+ | | | | | +------------SUBJ:V_PASS-N-----------+ | | | | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD_ATT:N-N (factor,sigma) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) APPOS (stress,S) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) APPOS (stress,S) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) OBJ:V-N (preceding,start) Parse 174 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | +----------------------------COMP_at:N-N----------------------------+ | | | | +---MOD_ATT:N-ADJ---+ +------------------COMP_at:N-N-----------------+ | | | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,initiation) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (was,initiation) APPOS (site,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) COMP_at:N-N (initiation,S) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) MOD_ATT:N-ADJ (factor,general) COMP_at:N-N (initiation,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 175 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | +--------------------COMP_at:N-N--------------------+ +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) COMP_by:ADV-N (recognized,factor) Parse 176 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +--------------------COMP_at:N-N--------------------+ | | +--------OBJ:V-N--------+ | | +----------COMP_at:N-N---------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) COMP_at:N-N (transcription,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (transcription,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 177 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------COMP_of:N-N----------------------------+ +-------OBJ:V-N-------+ | | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) APPOS (site,S) SUBJ:V-N (preceding,promoter) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) APPOS (site,S) APPOS (initiation,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) Parse 178 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | +----------------------------COMP_of:N-N----------------------------+ | | | | +-------------APPOS------------+ | | +--------COMP_by:V_PASS-N--------+ | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) OBJ:V-N (was,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 179 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +--------------------------------------------------------COMP_at:N-N-------------------------------------------------------+ | +------------------------------------------COMP_at:N-N------------------------------------------+ | | +------------------------------COMP_of:N-N-----------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) APPOS (S,B) OBJ:V-N (was,stress) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V-N (preceding,promoter) COMP_at:N-N (stress,promoter) COMP_by:ADV-N (recognized,factor) Parse 180 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------COMP_of:N-N----------------------------+ | | | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ | | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) APPOS (site,S) SUBJ:V-N (preceding,promoter) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) SUBJ:V-N (was,site) APPOS (transcription,S) OBJ:V-N (preceding,start) Parse 181 +------------------------------------------COMP_by:V-N------------------------------------------+ +---------------------------SUBJ:V-N--------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) SUBJ:V-N (preceding,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) Parse 182 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+---------------------------------------------APPOS---------------------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +---------------------------SUBJ:V-N--------------------------+ | | +------------OBJ:V-N-----------+ | +--------------------COMP_at:N-N--------------------+ | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) SUBJ:V-N (preceding,transcription) APPOS (transcription,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_at:N-N (transcription,promoter) COMP_by:ADV-N (recognized,factor) Parse 183 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+----------------------------------COMP_for:V_PASS-N----------------------------------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) COMP_for:V_PASS-N (required,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 184 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +---MOD_ATT:N-ADJ---+ +----------------------------COMP_at:N-N----------------------------+ +-------OBJ:V-N-------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) Parse 185 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +---------------------------SUBJ:V-N--------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (preceding,transcription) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) COMP_by:N-N (initiation,factor) Parse 186 +-----------SUBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------OBJ:V-N-------+ +-----------SUBJ:V_PASS-N----------+ +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (recognized,site) APPOS (S,B) SUBJ:V-N (required,sigma) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 187 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | +-----------------------------------SUBJ:V-N----------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,initiation) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) Parse 188 +---------------------------------------------------------------------------------APPOS---------------------------------------------------------------------------------+ +-------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | +--------------------COMP_at:N-N--------------------+ +-------OBJ:V-N-------+ | | | +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (site,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) COMP_by:N-N (transcription,factor) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,transcription) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) APPOS (transcription,GENEXXX) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) Parse 189 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | | | +---------------------------SUBJ:V-N---------------------------+ | | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_by:V_PASS-N (required,factor) SUBJ:V-N (recognized,preceding) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) OBJ:V-N (recognized,transcription) Parse 190 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------APPOS--------------------------------------------------------------------------------+ | +------------SUBJ:V_PASS-N-----------+----------------------------------COMP_for:V_PASS-N----------------------------------+ | | +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) COMP_for:V_PASS-N (required,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_by:ADV-N (recognized,factor) Parse 191 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+--------COMP_by:V_PASS-N--------+ | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:ADV-N (recognized,factor) APPOS (site,S) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (start,downstream) Parse 192 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------SUBJ:V_PASS-N-----------+ | +------------OBJ:V-N-----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) APPOS (site,S) COMP_at:V_PASS-N (required,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 193 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 194 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 195 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 196 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 197 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (sigma,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 198 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 199 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+ | +------------SUBJ:V_PASS-N-----------+ +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ | +------------OBJ:V-N-----------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) APPOS (transcription,promoter) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 200 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 201 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ | | | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) COMP_at:V_PASS-N (required,site) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 202 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------OBJ:V-N--------+ | | | | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) OBJ:V-N (was,sigma) APPOS (sigma,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 203 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) OBJ:V-N (was,sigma) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 204 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------SUBJ:V_PASS-N-----------+ | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) COMP_at:V_PASS-N (required,site) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) SUBJ:V_PASS-N (required,stress) Parse 205 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | +----------------------------COMP_at:N-N----------------------------+ +-------OBJ:V-N-------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (site,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (initiation,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) Parse 206 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-----------------------APPOS-----------------------+ +--------COMP_by:V_PASS-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (transcription,promoter) COMP_at:N-N (transcription,site) APPOS (S,B) MOD_ATT:N-N (site,start) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) APPOS (transcription,S) Parse 207 +-----------------------------------SUBJ:V-N----------------------------------+------------------------------------------COMP_by:V-N------------------------------------------+ +----------------------------COMP_of:N-N----------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------------APPOS------------+ | | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V-N (preceding,initiation) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (transcription,S) OBJ:V-N (preceding,start) Parse 208 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------SUBJ:V_PASS-N-----------+ +-----------------------APPOS-----------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +-------------APPOS------------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 209 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 210 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 211 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 212 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 213 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 214 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:V_PASS-N (required,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 215 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-----------APPOS----------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 216 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 217 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) COMP_at:V_PASS-N (required,site) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 218 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------------------------------------COMP_at:N-N------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) OBJ:V-N (was,stress) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) Parse 219 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------------------------------------COMP_at:N-N------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) OBJ:V-N (was,stress) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) Parse 220 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+ | +---------------------COMP_for:N-N---------------------+ | | +------------SUBJ:V_PASS-N-----------+ | +--------------------COMP_at:N-N--------------------+-------------------APPOS-------------------+ | +------------OBJ:V-N-----------+ | | +----------COMP_at:N-N---------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) APPOS (S,B) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) COMP_at:N-N (transcription,S) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_at:N-N (transcription,promoter) COMP_by:ADV-N (recognized,factor) SUBJ:V_PASS-N (required,stress) COMP_for:N-N (stress,initiation) Parse 221 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------SUBJ:V_PASS-N-----------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +-------------APPOS------------+ +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 222 +----------------------------------COMP_for:V_PASS-N----------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) COMP_for:V_PASS-N (required,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 223 +-----------SUBJ:V-N----------+ +--------OBJ:V-N--------+ | +----------------------------------------SUBJ:V_PASS-N----------------------------------------+--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +--------APPOS-------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V_PASS-N (recognized,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (required,sigma) MOD_ATT:N-N (site,start) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-ADJ (site,upstream) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) Parse 224 +-----------SUBJ:V-N----------+ +----------------------------------------SUBJ:V_PASS-N----------------------------------------+ +--------OBJ:V-N--------+ | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) SUBJ:V_PASS-N (recognized,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (site,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,site) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 225 +-----------SUBJ:V-N----------+ +--------OBJ:V-N--------+ | +----------------------------------------SUBJ:V_PASS-N----------------------------------------+--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +--------APPOS-------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V-N (required,sigma) MOD_ATT:N-N (factor,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (S,A) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 226 +-----------SUBJ:V-N----------+ +----------------------------------------SUBJ:V_PASS-N----------------------------------------+ +--------OBJ:V-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +--------APPOS-------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (promoter,S) SUBJ:V_PASS-N (recognized,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V-N (required,sigma) MOD_ATT:N-N (site,start) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (S,A) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) APPOS (factor,GENEXXX) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 227 +------------------------------------------COMP_by:V-N------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +---MOD_ATT:N-ADJ---+ +----------------------------------COMP_for:V_PASS-N----------------------------------+ | +-------OBJ:V-N-------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_for:V_PASS-N (required,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) Parse 228 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | +----------------------------COMP_at:N-N----------------------------+ +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_at:N-N (initiation,promoter) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (start,downstream) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) APPOS (initiation,GENEXXX) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 229 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +--------------------COMP_at:N-N--------------------+ +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) Parse 230 +---------------------------------------------------------------------------------APPOS---------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:V-N (preceding,factor) SUBJ:V_PASS-N (recognized,start) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (transcription,GENEXXX) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) MOD:V_PASS-ADV (recognized,presumably) Parse 231 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | | | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) Parse 232 +--------------SUBJ:V-N--------------+ +-------------------------SUBJ:V_PASS-N------------------------+--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (required,stress) MOD_ATT:N-N (site,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (recognized,preceding) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:ADV-N (recognized,factor) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) Parse 233 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +--------------------------------------------------------------SUBJ:V-N--------------------------------------------------------------+ | +------------SUBJ:V_PASS-N-----------+----------------------------------COMP_for:V_PASS-N----------------------------------+ | | +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) APPOS (site,S) COMP_for:V_PASS-N (required,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) SUBJ:V-N (preceding,stress) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) Parse 234 +---------------------------------------------------------------------------------APPOS---------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | | | | +-------OBJ:V-N-------+ | | | +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) APPOS (transcription,GENEXXX) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 235 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 236 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | | | | +-------OBJ:V-N-------+ | | | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 237 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | | | +-------------SUBJ:V_PASS-N-------------+ | | +---MOD_ATT:N-ADJ---+ | | +-------OBJ:V-N-------+ | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,stress) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,site) APPOS (site,promoter) Parse 238 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ | +-------OBJ:V-N-------+ | | | +-----SUBJ:V-N----+ +------------------------COMP_at:V-N-----------------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (required,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:V-N (required,site) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) COMP_by:V_PASS-N (recognized,factor) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (was,site) APPOS (site,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 239 +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ +---MOD_ATT:N-ADJ---+ +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 240 +------------------------------------------COMP_by:V-N------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 241 +------------------------------------------COMP_by:V-N------------------------------------------+ +-------------------------------APPOS-------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +---------------------APPOS--------------------+ | | +-------OBJ:V-N-------+ | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (initiation,S) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 242 +------------------------------------------COMP_by:V-N------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 243 +------------------------------------------COMP_by:V-N------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +---MOD_ATT:N-ADJ---+ | +-------OBJ:V-N-------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 244 +------------------------------------------COMP_by:V-N------------------------------------------+ +-------------------------------APPOS-------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +---------------------APPOS--------------------+ | | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (preceding,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 245 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ +-----------------------------------SUBJ:V-N----------------------------------+ | | +--------------------COMP_at:N-N--------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +----------COMP_at:N-N---------+ | | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) COMP_by:N-N (initiation,factor) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) COMP_at:N-N (transcription,S) SUBJ:V-N (preceding,initiation) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) Parse 246 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +----------------------------COMP_of:N-N----------------------------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,promoter) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 247 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_of:N-N----------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_of:N-N (sigma,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 248 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_of:N-N----------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_of:N-N (sigma,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 249 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_of:N-N----------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_of:N-N (sigma,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 250 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | +--------------------COMP_at:N-N--------------------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_by:V_PASS-N (required,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) OBJ:V-N (was,transcription) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) Parse 251 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | +---------------------------SUBJ:V-N--------------------------+ | | | | +--------------------COMP_at:N-N--------------------+ | | | | +---MOD_ATT:N-ADJ---+ | +----------COMP_at:N-N---------+ | | | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (recognized,transcription) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (was,transcription) SUBJ:V-N (preceding,transcription) COMP_at:N-N (transcription,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) COMP_by:N-N (initiation,factor) Parse 252 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | | +----------------------------------------------------COMP_at:N-N----------------------------------------------------+ | | | +------------------------------------------COMP_at:N-N-----------------------------------------+ | | | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | | | +--------------------------COMP_of:N-N--------------------------+ | | | | | | +------------------COMP_for:N-N-----------------+ | | | | | | | +--------SUBJ:V_PASS-N--------+ | | | | | | | | +--------OBJ:V-N--------+ | | | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | | | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ | | | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,sigma) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (sigma,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_at:N-N (sigma,S) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 253 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------APPOS--------------------------------------------------------------------------------+ | +--------------------------------------------------------------SUBJ:V-N--------------------------------------------------------------+ | | +--------------------------------------------------------COMP_at:N-N-------------------------------------------------------+ | | | +---------------------------------------------COMP_at:N-N---------------------------------------------+ | | | | +------------------------------------------COMP_at:N-N------------------------------------------+ | | | | | +------------------------------COMP_of:N-N-----------------------------+ | | | | | | +---------------------COMP_for:N-N---------------------+ | | | | | | | +------------SUBJ:V_PASS-N-----------+ | | | | | | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | | | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | | | +MOD_AT+ +APP+ | | | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (stress,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) APPOS (stress,S) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_at:N-N (stress,promoter) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,stress) COMP_for:N-N (stress,initiation) Parse 254 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ | | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | | +--------------------COMP_at:N-N--------------------+ | | | | | +----------COMP_at:N-N---------+ | +------------------SUBJ:V-N------------------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | | | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,preceding) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) SUBJ:V_PASS-N (recognized,transcription) APPOS (site,S) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) MOD_ATT:N-N (site,start) COMP_by:N-N (transcription,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (was,transcription) OBJ:V-N (preceding,site) COMP_at:N-N (transcription,S) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) COMP_at:N-N (transcription,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 255 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | | +---------------------------SUBJ:V-N--------------------------+ | | | | | +--------------------COMP_at:N-N--------------------+ | | | | | | +----------COMP_at:N-N---------+ | | | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) SUBJ:V-N (preceding,transcription) APPOS (site,S) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,transcription) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (was,transcription) COMP_at:N-N (transcription,S) APPOS (initiation,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) COMP_by:N-N (initiation,factor) OBJ:V-N (preceding,start) Parse 256 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ | | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | | +---------------------------SUBJ:V-N--------------------------+ | | | | | +--------------------COMP_at:N-N--------------------+ | | | | | +---MOD_ATT:N-ADJ---+ | +----------COMP_at:N-N---------+ | | | | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) SUBJ:V-N (preceding,transcription) APPOS (site,S) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) MOD:V-ADV (was,presumably) COMP_by:N-N (transcription,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,transcription) OBJ:V-N (was,transcription) COMP_at:N-N (transcription,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) MOD_ATT:N-ADJ (factor,general) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) Parse 257 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +----------------------------COMP_of:N-N----------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,promoter) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 258 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | +---------------------------------------------APPOS---------------------------------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (transcription,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (stress,initiation) Parse 259 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +-----------------------------------------------------APPOS-----------------------------------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 260 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ +---------------------------------------------APPOS---------------------------------------------+ | +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (transcription,S) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 261 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +-----------------------------------------------------APPOS-----------------------------------------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (stress,initiation) Parse 262 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+ | | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 263 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 264 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 265 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ +---------------------------------------------APPOS---------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+ | | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (transcription,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 266 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ | | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 267 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ +----------------------------COMP_of:N-N----------------------------+ | | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 268 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------SUBJ:V_PASS-N--------+ +-----------------------APPOS-----------------------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +-------------APPOS------------+ | | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,factor) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 269 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | +----------------------------COMP_at:N-N----------------------------+ | | | +------------------COMP_at:N-N-----------------+ | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) MOD:V_PASS-ADV (recognized,presumably) COMP_at:N-N (initiation,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) Parse 270 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------APPOS--------------------------------------------------------------------------------+ | +-----------------------------------------------------------APPOS----------------------------------------------------------+ | | +------------------------------------------------APPOS------------------------------------------------+ | | | +------------------------------------------COMP_at:N-N------------------------------------------+ | | | | +------------------------------COMP_of:N-N-----------------------------+ | | | | | +---------------------COMP_for:N-N---------------------+ | | | | | | +------------SUBJ:V_PASS-N-----------+ | | | | | | | +------------OBJ:V-N-----------+ | | | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | | | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) APPOS (stress,S) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) APPOS (stress,S) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) COMP_for:N-N (stress,initiation) Parse 271 +---------------------------------------------------------------------------------APPOS---------------------------------------------------------------------------------+ +-------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | +--------------------COMP_at:N-N--------------------+ | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) APPOS (site,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) MOD:V-ADV (was,presumably) COMP_by:N-N (transcription,factor) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,transcription) APPOS (site,S) OBJ:V-N (was,transcription) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) APPOS (transcription,GENEXXX) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) Parse 272 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +--------------------COMP_at:N-N--------------------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 273 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +----------------------------COMP_at:N-N----------------------------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (initiation,promoter) COMP_by:ADV-N (recognized,factor) Parse 274 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +----------------------------COMP_at:N-N----------------------------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 275 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------APPOS--------------------------------------------------------------------------------+ | +---------------------COMP_for:N-N---------------------+ | | +------------SUBJ:V_PASS-N-----------+ | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +----------------------------COMP_of:N-N----------------------------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) APPOS (stress,S) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_by:ADV-N (recognized,factor) SUBJ:V_PASS-N (required,stress) COMP_for:N-N (stress,initiation) Parse 276 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_at:N-N----------------------------------------------------+ | +---------------------------------------COMP_at:N-N--------------------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (sigma,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) Parse 277 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_at:N-N----------------------------------------------------+ | +---------------------------------------COMP_at:N-N--------------------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | +--------OBJ:V-N-------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (sigma,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) Parse 278 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_at:N-N----------------------------------------------------+ | +---------------------------------------COMP_at:N-N--------------------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) Parse 279 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +---MOD_ATT:N-ADJ---+ +----------------------------COMP_of:N-N----------------------------+ +-------OBJ:V-N-------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,promoter) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 280 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ | +--------OBJ:V-N--------+ +-----------------------------------COMP_at:V_PASS-N----------------------------------+ +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ | +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_at:V_PASS-N (required,promoter) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) APPOS (site,S) COMP_at:V_PASS-N (required,site) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 281 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------COMP_of:N-N----------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,promoter) APPOS (site,S) COMP_by:V_PASS-N (required,factor) MOD:V-ADV (was,presumably) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 282 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------APPOS--------------------------------------------------------------------------------+ | +------------SUBJ:V_PASS-N-----------+----------------------------------COMP_for:V_PASS-N----------------------------------+ | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) COMP_for:V_PASS-N (required,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) OBJ:V-N (preceding,start) Parse 283 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +----------------------------COMP_of:N-N----------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ | | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) APPOS (site,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) APPOS (initiation,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (was,site) APPOS (transcription,S) OBJ:V-N (preceding,start) Parse 284 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | +---------------------------SUBJ:V-N--------------------------+ | | +--------OBJ:V-N--------+ | | +--------------------COMP_at:N-N--------------------+ | | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,transcription) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (sigma,general) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (transcription,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 285 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +-----------------------------------SUBJ:V-N----------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +---MOD_ATT:N-ADJ---+ | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) APPOS (site,S) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,initiation) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) MOD_ATT:N-ADJ (factor,general) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) COMP_by:N-N (initiation,factor) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 286 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | +----------------------------COMP_at:N-N----------------------------+ +------------------SUBJ:V-N------------------+ | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) COMP_by:V_PASS-N (required,factor) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (was,preceding) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_at:N-N (initiation,promoter) OBJ:V-N (preceding,site) Parse 287 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+----------------------------------COMP_for:V_PASS-N----------------------------------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) COMP_for:V_PASS-N (required,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 288 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +----------------------------------------------------COMP_for:N-N---------------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) COMP_for:N-N (sigma,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 289 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | | +----------------------------------------------------COMP_at:N-N----------------------------------------------------+ | | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | | +--------------------------COMP_of:N-N--------------------------+ | | | | | +--------SUBJ:V_PASS-N--------+ | | | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,sigma) COMP_at:N-N (sigma,promoter) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) Parse 290 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | | +---------------------------SUBJ:V-N--------------------------+ | | | | | +--------------------COMP_at:N-N--------------------+ | | | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) OBJ:V-N (was,initiation) SUBJ:V-N (preceding,transcription) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) COMP_by:N-N (initiation,factor) OBJ:V-N (preceding,start) Parse 291 +-------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +--------------------COMP_at:N-N--------------------+ +-------OBJ:V-N-------+ | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) COMP_by:N-N (transcription,factor) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) Parse 292 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+ +--------COMP_by:V_PASS-N--------+ +---------------------APPOS--------------------+ | +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (initiation,promoter) MOD_ATT:N-N (factor,sigma) APPOS (S,B) MOD_ATT:N-N (site,start) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (initiation,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) Parse 293 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V_PASS-N (recognized,factor) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) APPOS (initiation,promoter) OBJ:V-N (preceding,site) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) Parse 294 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 295 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------SUBJ:V_PASS-N-----------+ +-------------------------------APPOS-------------------------------+ | +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 296 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 297 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 298 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 299 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 300 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-----------APPOS----------+ +--------OBJ:V-N-------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 301 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) OBJ:V-N (preceding,start) Parse 302 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ +-----------------------APPOS-----------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 303 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 304 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) Parse 305 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+ | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 306 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 307 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | +------------OBJ:V-N-----------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 308 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 309 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 310 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+ | +------------SUBJ:V_PASS-N-----------+ +-----------------------APPOS-----------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +-------------APPOS------------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 311 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ +-------------------------------APPOS-------------------------------+ | +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (stress,initiation) Parse 312 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 313 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-----------APPOS----------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 314 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 315 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ +-------------------------------APPOS-------------------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (stress,initiation) Parse 316 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------SUBJ:V_PASS-N-----------+ | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) SUBJ:V_PASS-N (required,stress) Parse 317 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+ | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 318 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------------------COMP_at:N-N------------------------------------------+ | +---------------------COMP_for:N-N---------------------+ | | +------------SUBJ:V_PASS-N-----------+ | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) SUBJ:V_PASS-N (required,stress) COMP_for:N-N (stress,initiation) Parse 319 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------------------COMP_at:N-N------------------------------------------+ | +------------------------------COMP_of:N-N-----------------------------+ | | +------------SUBJ:V_PASS-N-----------+ | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-----------APPOS----------+ +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) SUBJ:V_PASS-N (required,stress) Parse 320 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) OBJ:V-N (was,sigma) APPOS (sigma,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 321 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------SUBJ:V_PASS-N-----------+ | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) SUBJ:V_PASS-N (required,stress) Parse 322 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-----------APPOS----------+ +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) OBJ:V-N (preceding,start) Parse 323 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 324 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------OBJ:V-N--------+ | | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) APPOS (sigma,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 325 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 326 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) APPOS (sigma,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 327 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------------------COMP_at:N-N------------------------------------------+ | +------------------------------COMP_of:N-N-----------------------------+ | | +---------------------COMP_for:N-N---------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | | +------------OBJ:V-N-----------+ | | | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | +-----------APPOS----------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) APPOS (S,B) OBJ:V-N (was,stress) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (stress,initiation) Parse 328 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------------------COMP_at:N-N------------------------------------------+ | +------------------------------COMP_of:N-N-----------------------------+ | | +---------------------COMP_for:N-N---------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | | +------------OBJ:V-N-----------+ | | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) APPOS (S,B) OBJ:V-N (was,stress) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (stress,initiation) Parse 329 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------------------------------------COMP_at:N-N------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) OBJ:V-N (was,stress) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) Parse 330 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | +---MOD_ATT:N-ADJ---+ | +--------------------COMP_at:N-N--------------------+ +-------OBJ:V-N-------+ | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) APPOS (site,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) MOD_ATT:N-ADJ (factor,general) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) COMP_by:N-N (initiation,factor) OBJ:V-N (preceding,start) Parse 331 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------------------------COMP_of:N-N-----------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | +-------------------APPOS-------------------+ | +------------OBJ:V-N-----------+ | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) APPOS (S,B) OBJ:V-N (was,stress) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) OBJ:V-N (preceding,start) Parse 332 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------------------------------------COMP_at:N-N------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | +-------------------APPOS-------------------+ | +------------OBJ:V-N-----------+ | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) OBJ:V-N (was,stress) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) Parse 333 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +--------------------------COMP_of:N-N--------------------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | | | +--------OBJ:V-N--------+ | | | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | | | +--------OBJ:V-N-------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (start,downstream) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (sigma,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 334 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +--------------------------COMP_of:N-N--------------------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (sigma,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 335 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------------------------------------COMP_at:N-N------------------------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) OBJ:V-N (was,stress) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) Parse 336 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------------------------COMP_of:N-N-----------------------------+ | | | +---------------------COMP_for:N-N---------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ | | | +-------------------APPOS-------------------+ | +------------OBJ:V-N-----------+ | | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (stress,S) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) COMP_for:N-N (stress,initiation) Parse 337 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +--------------------------COMP_of:N-N--------------------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | | | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) APPOS (sigma,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 338 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | +----------------------------COMP_of:N-N----------------------------+ +------------------SUBJ:V-N------------------+ | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +----------OBJ:V-N----------+ | | | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) COMP_of:N-N (initiation,promoter) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) COMP_by:V_PASS-N (required,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (was,preceding) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,site) Parse 339 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +SUBJ:V+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (promoter,S) APPOS (initiation,S) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (site,start) APPOS (S,B) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 340 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-------------------------------------------------------COMP_for:N-N-------------------------------------------------------+ | +---------------------------------------------COMP_for:N-N--------------------------------------------+ | | +---------------------COMP_for:N-N---------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) COMP_for:N-N (stress,S) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) OBJ:V-N (was,stress) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) COMP_for:N-N (stress,promoter) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (stress,initiation) Parse 341 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------SUBJ:V_PASS-N-----------+ +-------------------------------APPOS-------------------------------+ | +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 342 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------SUBJ:V_PASS-N-----------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 343 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ | | +------------OBJ:V-N-----------+ | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (stress,initiation) Parse 344 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ | +-------------------APPOS-------------------+ | +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (stress,initiation) Parse 345 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 346 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 347 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------SUBJ:V_PASS-N-----------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) Parse 348 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 349 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ +-----------------------APPOS-----------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 350 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 351 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) OBJ:V-N (preceding,start) Parse 352 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 353 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-----------APPOS----------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 354 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +--------------------------COMP_of:N-N--------------------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | | | +--------OBJ:V-N--------+ | | | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | | | | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (site,downstream) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (sigma,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 355 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ | +-----------------------------------------------------APPOS-----------------------------------------------------+ | | +-----------------------------------SUBJ:V-N----------------------------------+ | | +--------SUBJ:V_PASS-N--------+ +----------------------------COMP_of:N-N----------------------------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,initiation) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 356 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | +----------------------------COMP_of:N-N----------------------------+ | | | | | +-------------APPOS------------+ | +------------------SUBJ:V-N------------------+ | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) COMP_of:N-N (initiation,promoter) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) COMP_by:V_PASS-N (required,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (was,preceding) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,site) APPOS (transcription,S) Parse 357 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +----------------------------COMP_at:N-N----------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +------------------COMP_at:N-N-----------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 358 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 359 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 360 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) Parse 361 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 362 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 363 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+ | +------------SUBJ:V_PASS-N-----------+ | | +------------OBJ:V-N-----------+ | +-------------APPOS------------+ +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (S,promoter) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) Parse 364 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | +--------APPOS-------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) Parse 365 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------APPOS------------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 366 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 367 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 368 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 369 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------------------------APPOS------------------------------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +-------------------APPOS-------------------+ | +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) APPOS (S,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (stress,S) COMP_by:ADV-N (recognized,factor) Parse 370 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------OBJ:V-N--------+ | | | | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | | +--------APPOS-------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 371 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------------------------APPOS------------------------------------------------+ | +------------------------------------------COMP_at:N-N------------------------------------------+ | | +------------------------------COMP_of:N-N-----------------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) APPOS (S,B) OBJ:V-N (was,stress) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) APPOS (S,promoter) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (stress,S) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) Parse 372 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +---------------------------------------COMP_at:N-N--------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | +--------APPOS-------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) Parse 373 +--------------SUBJ:V-N--------------+ +------------OBJ:V-N-----------+ | +----------------------------------------SUBJ:V_PASS-N----------------------------------------+--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +--------APPOS-------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (required,stress) APPOS (S,B) MOD_ATT:N-N (factor,sigma) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (S,A) APPOS (factor,GENEXXX) APPOS (S,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) APPOS (factor,GENEXXX) COMP_by:ADV-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD:V_PASS-ADV (recognized,presumably) Parse 374 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +----------------------------------------------------COMP_for:N-N---------------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------OBJ:V-N--------+ | | | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) SUBJ:V-N (preceding,sigma) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) COMP_for:N-N (sigma,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 375 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ | | +--------------------COMP_at:N-N--------------------+ +-------------SUBJ:V_PASS-N-------------+ | | | +----------COMP_at:N-N---------+ | +-------OBJ:V-N-------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (site,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) COMP_by:N-N (transcription,factor) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) Parse 376 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+-------------------------------------COMP_for:V-N------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ +--------------------------COMP_for:V-N--------------------------+ | +-------OBJ:V-N-------+ +-------COMP_by:ADV-N------+ | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-----COMP_by:V_PASS-N-----+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . COMP_by:ADV-N (recognized,sigma) APPOS (S,A) COMP_by:V_PASS-N (recognized,sigma) MOD_ATT:N-ADJ (start,downstream) SUBJ:V_PASS-N (recognized,start) COMP_for:V-N (required,S) OBJ:V-N (required,factor) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_for:V-N (required,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 377 +---------------------------------------------------------------------APPOS--------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (site,GENEXXX) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (start,downstream) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) Parse 378 +---------------------------------------------------------------------------------APPOS---------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) APPOS (transcription,GENEXXX) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 379 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 380 +---------------------------------------------------------------------------------APPOS---------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | +---MOD_ATT:N-ADJ---+ | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) APPOS (transcription,GENEXXX) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 381 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-----------------------APPOS-----------------------+ +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 382 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | +--------------SUBJ:V-N--------------+ +-------------------------------APPOS-------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ | | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) OBJ:V-N (was,start) SUBJ:V-N (required,stress) APPOS (site,S) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,site) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (initiation,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (required,GENEXXX) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 383 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +--------------SUBJ:V-N--------------+ +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | +------------OBJ:V-N-----------+ | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (required,stress) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (S,B) OBJ:V-N (required,GENEXXX) SUBJ:V-N (was,site) APPOS (site,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 384 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +-------------------------------APPOS-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (S,B) OBJ:V-N (required,GENEXXX) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 385 +-------------SUBJ:V_PASS-N-------------+ +-------OBJ:V-N-------+ | +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V_PASS-N--------+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) OBJ:V-N (preceding,start) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 386 +------------------------------------------COMP_by:V-N------------------------------------------+ +----------------------------------COMP_for:V_PASS-N----------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +------------------------COMP_for:V_PASS-N-----------------------+ | | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) MOD:V-ADV (was,presumably) COMP_for:V_PASS-N (required,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) OBJ:V-N (was,start) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V-N (preceding,promoter) COMP_for:V_PASS-N (required,S) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,start) Parse 387 +-------------------------------APPOS-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) APPOS (initiation,S) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD_ATT:N-N (sigma,stress) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) Parse 388 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-------------------------------------------------------COMP_for:N-N-------------------------------------------------------+ | +---------------------COMP_for:N-N---------------------+ | | +------------SUBJ:V_PASS-N-----------+ | +-------------------APPOS-------------------+ | +------------OBJ:V-N-----------+ | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) COMP_for:N-N (stress,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) SUBJ:V_PASS-N (required,stress) OBJ:V-N (preceding,start) COMP_for:N-N (stress,initiation) Parse 389 +--------------------------------SUBJ:V-N--------------------------------+ +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) MOD:V-ADV (was,presumably) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (initiation,S) OBJ:V-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 390 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_for:N-N---------------------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) COMP_for:N-N (sigma,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 391 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ | +--------OBJ:V-N--------+ +----------------------------------COMP_for:V_PASS-N----------------------------------+ +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) COMP_for:V_PASS-N (required,promoter) MOD:V-ADV (was,presumably) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 392 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +-----------------------------------------------------APPOS-----------------------------------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +--------------------COMP_at:N-N--------------------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) APPOS (initiation,S) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (transcription,promoter) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 393 +-------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ +-----------------------------------------------------------OBJ:V-N----------------------------------------------------------+ | +--------------------COMP_at:N-N--------------------+ +---------------------------SUBJ:V-N---------------------------+ | +---MOD_ATT:N-ADJ---+ +----------COMP_at:N-N---------+ | | +-------OBJ:V-N-------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) SUBJ:V-N (recognized,preceding) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,stress) OBJ:V-N (was,start) COMP_by:N-N (transcription,factor) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) COMP_at:N-N (transcription,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) COMP_at:N-N (transcription,promoter) OBJ:V-N (recognized,transcription) Parse 394 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | +----------------------------COMP_at:N-N----------------------------+ | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,initiation) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,site) MOD_ATT:N-N (factor,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) Parse 395 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_of:N-N----------------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_of:N-N (sigma,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 396 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +---------------------------------------------APPOS---------------------------------------------+ | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (transcription,S) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 397 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +---------------------------------------------APPOS---------------------------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (transcription,S) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 398 +------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------+ | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | +--------------------COMP_at:N-N--------------------+ | +-------------OBJ:V-N------------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V-N (recognized,initiation) APPOS (S,A) SUBJ:V-N (was,site) APPOS (S,B) COMP_by:V-N (recognized,sigma) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (recognized,factor) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (transcription,promoter) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (was,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (stress,general) MOD:V-ADV (recognized,presumably) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 399 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +--------------SUBJ:V-N--------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +------------OBJ:V-N-----------+ | +----------------------------COMP_of:N-N----------------------------+ +-------OBJ:V-N-------+ +-------COMP_by:ADV-N------+ | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-----COMP_by:V_PASS-N-----+ | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . COMP_by:ADV-N (recognized,sigma) SUBJ:V_PASS-N (recognized,initiation) APPOS (S,A) COMP_by:V_PASS-N (recognized,sigma) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) COMP_of:N-N (initiation,promoter) SUBJ:V-N (required,stress) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 400 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------APPOS--------------------------------------------------------------------------------+ | +---------------------COMP_for:N-N---------------------+ | | +------------SUBJ:V_PASS-N-----------+ +----------------------------COMP_of:N-N----------------------------+ | | +------------OBJ:V-N-----------+ | | +-------------APPOS------------+ | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (stress,S) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) SUBJ:V_PASS-N (required,stress) COMP_for:N-N (stress,initiation) Parse 401 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------------COMP_by:V-N---------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | | +-----------------------------------SUBJ:V-N----------------------------------+ | | | +-----------SUBJ:V-N----------+ +----------------------------COMP_of:N-N----------------------------+ | | | | +--------OBJ:V-N--------+ | +------------------COMP_of:N-N-----------------+ | | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) COMP_of:N-N (initiation,promoter) APPOS (S,B) COMP_of:N-N (initiation,S) OBJ:V-N (required,factor) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_by:V-N (required,sigma) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V-N (preceding,initiation) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 402 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------APPOS--------------------------------------------------------------------------------+ | +--------------------------------------------------------COMP_of:N-N-------------------------------------------------------+ | | +------------------------------COMP_of:N-N-----------------------------+ | | | +---------------------COMP_for:N-N---------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ | | | | | +------------OBJ:V-N-----------+ | | | | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (stress,promoter) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) APPOS (stress,S) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (stress,initiation) Parse 403 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | +----------------------------COMP_of:N-N----------------------------+ | | | | +-------------APPOS------------+ | | | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V_PASS-N--------+ | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) OBJ:V-N (was,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 404 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +----------------------------COMP_at:N-N----------------------------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 405 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_at:N-N----------------------------------------------------+ | +---------------------------------------COMP_at:N-N--------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------OBJ:V-N--------+ | | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) COMP_at:N-N (sigma,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 406 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +---------------------------SUBJ:V-N--------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) SUBJ:V-N (preceding,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) COMP_by:V_PASS-N (required,factor) Parse 407 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +----------------------------------------------------COMP_at:N-N----------------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +------------------COMP_for:N-N-----------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) OBJ:V-N (was,sigma) COMP_at:N-N (sigma,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (preceding,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 408 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +----------------------------------------------------COMP_for:N-N---------------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) COMP_for:N-N (sigma,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 409 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | | +---------------------------SUBJ:V-N--------------------------+ | | | | | +--------------------COMP_at:N-N--------------------+ | | | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) APPOS (site,S) SUBJ:V-N (preceding,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD:V_PASS-ADV (recognized,presumably) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:V_PASS-N (required,factor) Parse 410 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | +-----------------------------------SUBJ:V-N----------------------------------+ | | | | | +--------------------COMP_at:N-N--------------------+ | | | | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) OBJ:V-N (was,initiation) APPOS (site,S) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (factor,stress) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,initiation) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) COMP_by:N-N (initiation,factor) OBJ:V-N (preceding,start) Parse 411 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +-----------------------------------SUBJ:V-N----------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ | +----------------------------COMP_at:N-N----------------------------+ | +-------OBJ:V-N-------+ +-------COMP_by:ADV-N------+ | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-----COMP_by:V_PASS-N-----+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . COMP_by:ADV-N (recognized,sigma) APPOS (S,A) COMP_by:V_PASS-N (recognized,sigma) MOD_ATT:N-ADJ (start,downstream) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (required,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,initiation) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_at:N-N (initiation,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 412 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | +----------------------------COMP_at:N-N----------------------------+ +-------OBJ:V-N-------+ | | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) APPOS (site,S) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) APPOS (site,S) APPOS (initiation,GENEXXX) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) APPOS (S,B) MOD_ATT:N-ADJ (factor,general) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (initiation,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) Parse 413 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------APPOS--------------------------------------------------------------------------------+ | +--------------------------------------------------------------SUBJ:V-N--------------------------------------------------------------+ | | +---------------------COMP_for:N-N---------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | | +------------OBJ:V-N-----------+ | | +--------------------COMP_at:N-N--------------------+ | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (stress,S) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_at:N-N (transcription,promoter) COMP_by:ADV-N (recognized,factor) SUBJ:V_PASS-N (required,stress) SUBJ:V-N (preceding,stress) COMP_for:N-N (stress,initiation) Parse 414 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 415 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+ | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 416 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (stress,initiation) Parse 417 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 418 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 419 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 420 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 421 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-----------APPOS----------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 422 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 423 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ | +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) OBJ:V-N (preceding,start) COMP_for:N-N (stress,initiation) Parse 424 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-----------APPOS----------+ +--------OBJ:V-N-------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 425 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 426 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 427 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) OBJ:V-N (was,sigma) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 428 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +-------------------------------APPOS-------------------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 429 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 430 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ +-----------------------------------SUBJ:V-N----------------------------------+ | +----------------------------COMP_of:N-N----------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------------APPOS------------+ | | +-------OBJ:V-N-------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,promoter) MOD_ATT:N-N (factor,stress) SUBJ:V-N (preceding,initiation) OBJ:V-N (was,start) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) APPOS (transcription,S) Parse 431 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+ | +---------------------COMP_for:N-N---------------------+ | | +------------SUBJ:V_PASS-N-----------+ | +-----------------------APPOS-----------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | +-------------APPOS------------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) SUBJ:V_PASS-N (required,stress) COMP_for:N-N (stress,initiation) Parse 432 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 433 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | +-------------------APPOS-------------------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-----------APPOS----------+ +----------OBJ:V-N----------+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 434 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+ | +---------------------COMP_for:N-N---------------------+ | | +------------SUBJ:V_PASS-N-----------+ | +-----------------------APPOS-----------------------+ +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) SUBJ:V_PASS-N (required,stress) COMP_for:N-N (stress,initiation) Parse 435 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 436 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 437 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------OBJ:V-N--------+ | | | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | +-----------APPOS----------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 438 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | | +-----------APPOS----------+ +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 439 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +------------------COMP_for:N-N-----------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | | | +--------OBJ:V-N--------+ | | | | | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (start,downstream) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 440 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | +------------------COMP_for:N-N-----------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | +-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) APPOS (sigma,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 441 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +------------------------------------------COMP_at:N-N------------------------------------------+ | | | +---------------------COMP_for:N-N---------------------+ | | | | +------------SUBJ:V_PASS-N-----------+ | | | | | +------------OBJ:V-N-----------+ | | | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | | | | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) APPOS (factor,GENEXXX) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (stress,S) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) COMP_for:N-N (stress,initiation) Parse 442 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ | +-----------------------APPOS-----------------------+ | +------------OBJ:V-N-----------+ | | +-------------APPOS------------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (stress,initiation) Parse 443 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 444 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 445 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | +-----------APPOS----------+ +--------OBJ:V-N-------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 446 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 447 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 448 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | +-----------------------APPOS-----------------------+-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 449 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------OBJ:V-N--------+ | | | | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | +-----------APPOS----------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (sigma,initiation) Parse 450 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +-----------------------------------------------------------APPOS----------------------------------------------------------+ | +------------------------------------------------APPOS------------------------------------------------+ | | +---------------------COMP_for:N-N---------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | | +------------OBJ:V-N-----------+ | | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) APPOS (S,B) OBJ:V-N (was,stress) APPOS (site,S) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (stress,S) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) APPOS (stress,promoter) COMP_for:N-N (stress,initiation) Parse 451 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 452 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +------------------COMP_for:N-N-----------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | | | +--------OBJ:V-N--------+ | | | | | +----------OBJ:V-N----------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | | | | +MOD_ATT:N-ADJ+ +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (site,downstream) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (sigma,promoter) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 453 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +------------------------------------------COMP_at:N-N------------------------------------------+ | +------------------------------COMP_of:N-N-----------------------------+ | | +---------------------COMP_for:N-N---------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | +-------------------APPOS-------------------+ | +------------OBJ:V-N-----------+ | | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | +-----------APPOS----------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+ +MOD_A+--APPOS--+ | | | | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) COMP_of:N-N (stress,transcription) APPOS (S,B) OBJ:V-N (was,stress) SUBJ:V-N (preceding,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (site,promoter) COMP_for:N-N (stress,initiation) Parse 454 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +--------------------------COMP_of:N-N--------------------------+ | | | | +------------------COMP_for:N-N-----------------+ | | | | | +--------SUBJ:V_PASS-N--------+ | | | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | | | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | | | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,general) APPOS (sigma,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 455 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-------------------------------------------------------APPOS-------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +--------------------------COMP_of:N-N--------------------------+ | | | | +------------------COMP_for:N-N-----------------+ | | | | | +--------SUBJ:V_PASS-N--------+ | | | | | | +--------OBJ:V-N--------+ | | | | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) APPOS (sigma,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 456 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) APPOS (site,S) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 457 +-------------------------------------------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ | +--------COMP_by:V_PASS-N--------+ +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V_PASS-N (recognized,stress) APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) APPOS (S,promoter) OBJ:V-N (preceding,site) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (stress,initiation) Parse 458 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 459 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ +--------APPOS-------+ +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (S,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 460 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +---------------------------------------COMP_at:N-N--------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (S,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 461 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +---------------------------------------COMP_at:N-N--------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +-------------------APPOS-------------------+ +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | | | | | +----------OBJ:V-N----------+ | +----------COMP_by:ADV-N---------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | +--------APPOS-------+ +--------OBJ:V-N-------+ | | | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ | +APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) OBJ:V-N (was,sigma) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (S,promoter) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 462 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +---------------------------------------COMP_at:N-N--------------------------------------+ | | +--------------------------COMP_of:N-N--------------------------+ | | | +------------------COMP_for:N-N-----------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | | +-------------------APPOS-------------------+ | +--------OBJ:V-N--------+ | | | | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V-N----+ | | | | +--------APPOS-------+ | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | | | +MOD_AT+ +APP+ +-SUBJ:V-N+ | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (site,downstream) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (preceding,promoter) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) APPOS (promoter,S) MOD_ATT:N-N (sigma,stress) APPOS (S,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_at:N-N (sigma,site) COMP_by:ADV-N (recognized,factor) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 463 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) SUBJ:V-N (recognized,promoter) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) SUBJ:V-N (recognized,sigma) Parse 464 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +----------------------------------------------------COMP_for:N-N---------------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------COMP_by:V_PASS-N--------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +----------OBJ:V-N----------+ +----------COMP_by:ADV-N---------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | | +MOD_ATT:N-ADJ+ | +-MOD_ATT:N-ADJ+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ | | | +MOD_+APPOS+APP+ +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (factor,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) SUBJ:V-N (preceding,sigma) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) COMP_for:N-N (sigma,promoter) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (preceding,site) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 465 +----------------------------------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------+ | +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | | +----------------------------------------------------COMP_for:N-N---------------------------------------------------+ | | | +------------------COMP_for:N-N-----------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | | | +--------OBJ:V-N--------+ | | | +----------OBJ:V-N----------+ | +--------COMP_by:V_PASS-N--------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +MOD_ATT:N-ADJ+ | +----------COMP_by:ADV-N---------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | | +MOD_+ +APP+ +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,sigma) SUBJ:V-N (preceding,sigma) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (sigma,S) APPOS (factor,GENEXXX) COMP_by:V_PASS-N (recognized,factor) MOD_ATT:N-N (site,start) COMP_for:N-N (sigma,promoter) OBJ:V-N (preceding,site) MOD:V_PASS-ADV (recognized,presumably) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,sigma) COMP_by:ADV-N (recognized,factor) COMP_for:N-N (sigma,initiation) Parse 466 +----------------------------COMP_of:N-N----------------------------+ +-------------SUBJ:V_PASS-N-------------+----------COMP_by:ADV-N---------+ | +-------------APPOS------------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:ADV-N (recognized,factor) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) OBJ:V-N (preceding,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 467 +------------------------------------------COMP_by:V-N------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) OBJ:V-N (was,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) COMP_at:N-N (transcription,promoter) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) Parse 468 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) COMP_by:V_PASS-N (recognized,factor) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (site,promoter) Parse 469 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (S,B) OBJ:V-N (required,GENEXXX) SUBJ:V-N (was,site) APPOS (site,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 470 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +-----------------------APPOS-----------------------+ +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (S,B) OBJ:V-N (required,GENEXXX) SUBJ:V-N (was,site) APPOS (transcription,S) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 471 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | +-----------SUBJ:V-N----------+ | +-------------SUBJ:V_PASS-N-------------+ | | +--------OBJ:V-N--------+ | | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ +------------------------COMP_at:V-N-----------------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (required,GENEXXX) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_by:V-N (preceding,factor) COMP_at:V-N (required,site) OBJ:V-N (was,start) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) APPOS (site,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 472 +------------------------------------------COMP_by:V-N------------------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) OBJ:V-N (was,start) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) COMP_for:V_PASS-N (required,initiation) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) APPOS (site,promoter) OBJ:V-N (preceding,start) Parse 473 +------------------------------------------COMP_by:V-N------------------------------------------+ +-------------------------------APPOS-------------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +---------------------APPOS--------------------+ | | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:V-N (preceding,factor) APPOS (initiation,S) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) Parse 474 +------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------+ | +--------------------------------SUBJ:V-N--------------------------------+ +---MOD_ATT:N-ADJ---+ | +-------------APPOS------------+ | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | | | +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V-N (recognized,initiation) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) APPOS (S,B) COMP_by:V-N (recognized,sigma) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (recognized,factor) OBJ:V-N (was,start) APPOS (S,A) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,promoter) MOD_ATT:N-ADJ (sigma,vegetative) COMP_at:N-N (transcription,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (transcription,S) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) Parse 475 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | +--------------------COMP_at:N-N--------------------+ | | | | +----------COMP_at:N-N---------+ | | | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_by:N-N (initiation,factor) MOD:V_PASS-ADV (recognized,presumably) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) COMP_at:N-N (transcription,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) Parse 476 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | +--------------SUBJ:V-N--------------+ +--------------------COMP_at:N-N--------------------+ | | | +------------OBJ:V-N-----------+ | +----------COMP_at:N-N---------+ | | | | | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-----COMP_by:V_PASS-N-----+ | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_by:V_PASS-N (recognized,sigma) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) SUBJ:V-N (required,stress) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,transcription) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (was,transcription) COMP_at:N-N (transcription,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) Parse 477 +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +----------------------------COMP_of:N-N----------------------------+ | +--------COMP_by:V_PASS-N--------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) COMP_by:V_PASS-N (recognized,factor) SUBJ:V-N (preceding,promoter) MOD_ATT:N-ADJ (factor,vegetative) OBJ:V-N (preceding,start) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 478 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ +-------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ | | +---------------------------SUBJ:V-N---------------------------+ | +----------------------------COMP_at:N-N----------------------------+ | +-------OBJ:V-N-------+ | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) OBJ:V-N (recognized,initiation) APPOS (site,S) SUBJ:V-N (recognized,preceding) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (initiation,site) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) MOD_ATT:N-ADJ (factor,general) COMP_at:N-N (initiation,promoter) Parse 479 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------------COMP_by:V-N---------------------------------------------------------------------------------------+ | +--------------SUBJ:V-N--------------+ +----------------------------COMP_of:N-N----------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------OBJ:V-N-----------+ | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) COMP_of:N-N (initiation,promoter) SUBJ:V-N (required,stress) APPOS (S,B) OBJ:V-N (required,factor) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (factor,GENEXXX) COMP_by:V-N (required,sigma) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 480 +----------------------------------------------------------------------------------------COMP_by:V_PASS-N---------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | | +---------------------------SUBJ:V-N--------------------------+ | | | | | +--------------------COMP_at:N-N--------------------+ | | | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) SUBJ:V_PASS-N (recognized,initiation) APPOS (site,S) SUBJ:V-N (preceding,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) COMP_by:V_PASS-N (required,factor) Parse 481 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +-------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ | | | +---------------------------SUBJ:V-N---------------------------+ | | +----------------------------COMP_at:N-N----------------------------+ | +-------OBJ:V-N-------+ | | | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (initiation,site) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V-N (recognized,preceding) APPOS (S,B) OBJ:V-N (preceding,start) COMP_at:N-N (initiation,promoter) OBJ:V-N (recognized,initiation) Parse 482 +------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | +---------------------------SUBJ:V-N--------------------------+ | | | +--------------------COMP_at:N-N--------------------+ | | +-------------OBJ:V-N------------+ +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V-N (recognized,initiation) APPOS (S,A) SUBJ:V-N (was,site) OBJ:V-N (was,initiation) APPOS (S,B) COMP_by:V-N (recognized,sigma) SUBJ:V-N (preceding,transcription) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (recognized,factor) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (transcription,promoter) MOD_ATT:N-ADJ (sigma,vegetative) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 483 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ +-----------------------------------SUBJ:V-N----------------------------------+ | +----------------------------COMP_of:N-N----------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +-------------APPOS------------+ | | +-------OBJ:V-N-------+ | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD:V_PASS-ADV (recognized,presumably) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) SUBJ:V-N (preceding,initiation) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (factor,vegetative) APPOS (transcription,S) COMP_by:N-N (initiation,factor) Parse 484 +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ +-------------------------------------------------------------------OBJ:V-N------------------------------------------------------------------+ | | +---------------------------SUBJ:V-N---------------------------+ | +----------------------------COMP_of:N-N----------------------------+ | +-------OBJ:V-N-------+ | | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_of:N-N (initiation,promoter) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,factor) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) OBJ:V-N (recognized,initiation) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (recognized,preceding) Parse 485 +-------------------------------------------SUBJ:V-N------------------------------------------+ +-----------SUBJ:V-N----------+ | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) APPOS (S,B) SUBJ:V-N (required,sigma) COMP_by:V-N (recognized,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) OBJ:V-N (recognized,factor) OBJ:V-N (was,start) APPOS (S,A) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) SUBJ:V-N (recognized,S) OBJ:V-N (preceding,start) Parse 486 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------------COMP_by:V-N----------------------------------------------------------------------------------+ | +-----------SUBJ:V-N----------+ +----------------------------COMP_of:N-N----------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +--------OBJ:V-N--------+ | +------------------COMP_of:N-N-----------------+ | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) APPOS (S,B) COMP_of:N-N (initiation,S) OBJ:V-N (required,factor) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) COMP_by:V-N (required,vegetative) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 487 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------------COMP_by:V-N---------------------------------------------------------------------------------------+ | +--------------SUBJ:V-N--------------+-------------------------------------COMP_for:V-N------------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------OBJ:V-N-----------+ +--------------------------COMP_for:V-N--------------------------+ | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) COMP_by:V-N (required,sigma) COMP_for:V-N (required,S) SUBJ:V-N (required,stress) APPOS (S,B) OBJ:V-N (required,factor) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (factor,GENEXXX) COMP_for:V-N (required,promoter) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 488 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) COMP_at:N-N (transcription,site) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) COMP_by:V_PASS-N (recognized,factor) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (required,GENEXXX) SUBJ:V-N (was,site) APPOS (site,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 489 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +--------------SUBJ:V-N--------------+ +-------------------------------APPOS-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (required,stress) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (required,GENEXXX) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 490 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ | +------------------------------------------COMP_by:V-N------------------------------------------+ | +-----------SUBJ:V-N----------+ +-----------------------APPOS-----------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +--------OBJ:V-N--------+ | +-------------APPOS------------+ | | +-------OBJ:V-N-------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) COMP_by:V-N (preceding,factor) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (required,GENEXXX) APPOS (transcription,S) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 491 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +-------------------------------APPOS-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ | | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V_PASS-N--------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) COMP_by:V_PASS-N (recognized,factor) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (required,GENEXXX) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 492 +--------------------------------SUBJ:V-N--------------------------------+ +---MOD_ATT:N-ADJ---+ +-------------APPOS------------+ | +-------OBJ:V-N-------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | | +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) MOD:V-ADV (was,presumably) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (recognized,factor) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (factor,general) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) OBJ:V-N (preceding,start) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 493 +------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------+ | +--------------------------------SUBJ:V-N--------------------------------+ | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +SUBJ:V+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V-N (recognized,initiation) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,site) APPOS (S,A) COMP_at:N-N (transcription,site) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (factor,GENEXXX) OBJ:V-N (recognized,factor) SUBJ:V-N (stress,general) SUBJ:V-N (recognized,promoter) MOD:V-ADV (recognized,presumably) SUBJ:V_PASS-N (required,factor) COMP_by:V-N (recognized,sigma) OBJ:V-N (was,start) APPOS (site,S) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) Parse 494 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+----------------------------------COMP_for:V_PASS-N----------------------------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) COMP_for:V_PASS-N (required,promoter) MOD:V-ADV (was,presumably) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,sigma) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 495 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------------COMP_by:V-N----------------------------------------------------------------------------------+ | +-----------SUBJ:V-N----------+ +-------------SUBJ:V_PASS-N-------------+ | | +--------OBJ:V-N--------+ +-------------------------------------COMP_for:V-N------------------------------------+ +-------OBJ:V-N-------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (S,B) OBJ:V-N (required,factor) COMP_by:V-N (required,vegetative) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (was,site) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (site,S) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,promoter) COMP_for:V-N (required,initiation) Parse 496 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | +-----------SUBJ:V-N----------+ | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | +--------OBJ:V-N--------+ | | +--------------------COMP_at:N-N--------------------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +-COMP_by:V_PASS-N+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) COMP_by:V_PASS-N (recognized,vegetative) APPOS (factor,GENEXXX) MOD:V-ADV (was,presumably) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (was,transcription) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) Parse 497 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ | +-------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ | | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | | +--------------------COMP_at:N-N--------------------+ | | | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) SUBJ:V_PASS-N (recognized,transcription) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) COMP_by:N-N (transcription,factor) MOD_ATT:N-N (factor,sigma) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) OBJ:V-N (was,transcription) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) Parse 498 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +--------OBJ:V-N--------+ | +----------------------------COMP_of:N-N----------------------------+ | +-------------OBJ:V-N------------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) OBJ:V-N (was,initiation) OBJ:V-N (recognized,factor) APPOS (S,B) COMP_of:N-N (initiation,promoter) APPOS (site,S) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,sigma) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 499 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------------COMP_by:V-N----------------------------------------------------------------------------------+ | | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +-----------SUBJ:V-N----------+ +-----------------------------------SUBJ:V-N----------------------------------+ | | | +--------OBJ:V-N--------+ | | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) OBJ:V-N (required,factor) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) COMP_by:V-N (required,vegetative) MOD_ATT:N-N (sigma,stress) APPOS (site,S) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) SUBJ:V-N (preceding,initiation) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_at:N-N (transcription,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 500 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | +--------OBJ:V-N--------+ | +--------------------COMP_at:N-N--------------------+ +-------OBJ:V-N-------+ | | | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +-COMP_by:V_PASS-N+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) COMP_by:V_PASS-N (recognized,vegetative) APPOS (factor,GENEXXX) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,transcription) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) COMP_at:N-N (transcription,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) Parse 501 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ +-------------------------------------COMP_for:V-N------------------------------------+ +-------OBJ:V-N-------+ | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-----COMP_by:V_PASS-N-----+ | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_by:V_PASS-N (recognized,sigma) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (required,factor) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) COMP_for:V-N (required,promoter) COMP_for:V-N (required,initiation) Parse 502 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | | | +--------------------COMP_at:N-N--------------------+ +-------OBJ:V-N-------+ | | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) APPOS (initiation,GENEXXX) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,start) COMP_by:N-N (initiation,factor) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) MOD:V_PASS-ADV (recognized,presumably) APPOS (site,S) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) Parse 503 +------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +-----------------------------------SUBJ:V-N----------------------------------+ | | | +--------------------COMP_at:N-N--------------------+ | | | +---MOD_ATT:N-ADJ---+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V-N (recognized,initiation) APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) COMP_of:N-N (initiation,transcription) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (recognized,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (transcription,promoter) SUBJ:V-N (preceding,initiation) COMP_at:N-N (transcription,site) MOD:V-ADV (recognized,presumably) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) MOD_ATT:N-ADJ (factor,general) OBJ:V-N (preceding,start) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 504 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +-----------------------------------SUBJ:V-N----------------------------------+ | +-----------SUBJ:V-N----------+ +----------------------------COMP_of:N-N----------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | | +-------OBJ:V-N-------+ | | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--COMP_by:ADV-N--+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+-COMP_by:V_PASS-N+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) SUBJ:V-N (required,sigma) APPOS (site,S) COMP_of:N-N (initiation,transcription) COMP_by:ADV-N (recognized,vegetative) COMP_by:V_PASS-N (recognized,vegetative) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,initiation) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V-N (was,site) APPOS (transcription,S) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 505 +-----------------------------------------------------------------------------------------APPOS-----------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------COMP_by:N-N---------------------------------------------------------------------------------+ | +-----------------------------------SUBJ:V-N----------------------------------+ | | +----------------------------COMP_of:N-N----------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | | +-------------APPOS------------+ | | +-------OBJ:V-N-------+ | | | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (stress,general) MOD:V_PASS-ADV (recognized,presumably) MOD_ATT:N-ADJ (sigma,vegetative) APPOS (initiation,GENEXXX) SUBJ:V_PASS-N (required,factor) SUBJ:V_PASS-N (recognized,start) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) APPOS (transcription,S) COMP_by:N-N (initiation,factor) Parse 506 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------COMP_by:N-N------------------------------------------------------------------------------+ | | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +--------------SUBJ:V-N--------------+ +-----------------------------------SUBJ:V-N----------------------------------+ | | | +------------OBJ:V-N-----------+ | +----------------------------COMP_of:N-N----------------------------+ | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) COMP_of:N-N (initiation,promoter) SUBJ:V-N (required,stress) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,sigma) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V-N (preceding,initiation) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) Parse 507 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +--------------SUBJ:V-N--------------+ +-------------SUBJ:V_PASS-N-------------+ | +------------OBJ:V-N-----------+ +-------------------------------------COMP_at:V-N-------------------------------------+ +-------OBJ:V-N-------+ | | | +-----SUBJ:V-N----+ +------------------------COMP_at:V-N-----------------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +-COMP_by:V_PASS-N+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:V-N (required,site) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (required,stress) OBJ:V-N (required,factor) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_at:V-N (required,promoter) COMP_of:N-N (initiation,transcription) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 508 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +----------------------------COMP_of:N-N----------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ +-------COMP_by:ADV-N------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-----COMP_by:V_PASS-N-----+ | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . COMP_by:ADV-N (recognized,sigma) APPOS (S,A) COMP_by:V_PASS-N (recognized,sigma) MOD_ATT:N-ADJ (start,downstream) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) COMP_of:N-N (initiation,promoter) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V-N (was,site) APPOS (transcription,S) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 509 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (recognized,promoter) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) Parse 510 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (recognized,promoter) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (sigma,S) Parse 511 +-------------------------------------------SUBJ:V-N------------------------------------------+ +-----------SUBJ:V-N----------+ | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,A) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-ADJ (site,upstream) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (recognized,factor) SUBJ:V-N (recognized,promoter) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) COMP_by:V-N (recognized,vegetative) OBJ:V-N (was,start) SUBJ:V-N (preceding,promoter) SUBJ:V-N (recognized,S) OBJ:V-N (preceding,start) Parse 512 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------------COMP_by:V-N----------------------------------------------------------------------------------+ | | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +-----------SUBJ:V-N----------+ | +--------------------COMP_at:N-N--------------------+ | | | +--------OBJ:V-N--------+ | | +----------COMP_at:N-N---------+ | +-------OBJ:V-N-------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) OBJ:V-N (required,factor) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) APPOS (factor,GENEXXX) COMP_by:V-N (required,vegetative) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (transcription,S) SUBJ:V-N (was,factor) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 513 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +--------------SUBJ:V-N--------------+ +-------------SUBJ:V_PASS-N-------------+ | +------------OBJ:V-N-----------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+-----------APPOS----------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) SUBJ:V-N (required,stress) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (S,B) OBJ:V-N (required,GENEXXX) SUBJ:V-N (was,site) APPOS (site,promoter) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 514 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +--------------SUBJ:V-N--------------+ +-----------------------APPOS-----------------------+ +-------------SUBJ:V_PASS-N-------------+--------COMP_by:V_PASS-N--------+ | +------------OBJ:V-N-----------+ | +-------------APPOS------------+ | +-------OBJ:V-N-------+ +----------COMP_by:ADV-N---------+ | | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | +-MOD_ATT:N-ADJ+ | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (transcription,promoter) MOD_ATT:N-ADJ (factor,vegetative) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) SUBJ:V-N (required,stress) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (S,B) OBJ:V-N (required,GENEXXX) SUBJ:V-N (was,site) APPOS (transcription,S) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 515 +-------------------------------------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------------------------------------+ +-----------SUBJ:V-N----------+ +-------------------------------APPOS-------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ +--------COMP_by:V_PASS-N--------+ | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +----------COMP_by:ADV-N---------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,site) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_of:N-N (initiation,transcription) COMP_by:V_PASS-N (recognized,factor) OBJ:V-N (was,start) APPOS (initiation,promoter) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) COMP_by:ADV-N (recognized,factor) APPOS (S,B) OBJ:V-N (required,GENEXXX) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 516 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,promoter) SUBJ:V-N (preceding,sigma) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,sigma) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 517 +--------------------------------SUBJ:V-N--------------------------------+ +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ | +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +SUBJ:V+ +MOD_A+--APPOS--+ +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (initiation,S) OBJ:V-N (was,start) APPOS (S,A) APPOS (factor,GENEXXX) OBJ:V-N (recognized,factor) SUBJ:V-N (stress,general) SUBJ:V-N (recognized,promoter) MOD:V-ADV (recognized,presumably) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) Parse 518 +------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------+ | +--------------------------------SUBJ:V-N--------------------------------+ | | +-------OBJ:V-N-------+ | +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V-N (recognized,initiation) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (recognized,factor) OBJ:V-N (was,start) APPOS (S,A) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,promoter) APPOS (site,S) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (stress,general) MOD:V-ADV (recognized,presumably) SUBJ:V_PASS-N (required,factor) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) Parse 519 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ +----------------------------COMP_of:N-N----------------------------+ | | +--------OBJ:V-N--------+ | +------------------COMP_of:N-N-----------------+ | | +-------------OBJ:V-N------------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) OBJ:V-N (was,initiation) OBJ:V-N (recognized,factor) APPOS (S,B) COMP_of:N-N (initiation,promoter) SUBJ:V-N (recognized,sigma) COMP_of:N-N (initiation,S) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_for:N-N (sigma,initiation) Parse 520 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------COMP_by:N-N------------------------------------------------------------------------------+ | | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | +-----------SUBJ:V-N----------+ | +--------------------COMP_at:N-N--------------------+ | | | | +--------OBJ:V-N--------+ | | +----------COMP_at:N-N---------+ | +------------------SUBJ:V-N------------------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +----------OBJ:V-N----------+ | | | | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_at:N-N (transcription,site) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) APPOS (factor,GENEXXX) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,preceding) COMP_by:N-N (initiation,sigma) MOD_ATT:N-ADJ (sigma,vegetative) COMP_at:N-N (transcription,S) SUBJ:V-N (was,factor) COMP_at:N-N (transcription,promoter) OBJ:V-N (was,initiation) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 521 +------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------+ | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | +--------------------COMP_at:N-N--------------------+ | | +-MOD_ATT:N-N+-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V-N (recognized,initiation) APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (factor,stress) OBJ:V-N (recognized,factor) APPOS (factor,GENEXXX) APPOS (site,S) COMP_at:N-N (transcription,promoter) OBJ:V-N (was,transcription) COMP_at:N-N (transcription,site) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) APPOS (site,S) MOD_ATT:N-ADJ (start,downstream) Parse 522 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +---------------------------------------------------------------------------------------COMP_by:V-N---------------------------------------------------------------------------------------+ | | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +-----------SUBJ:V-N----------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | +--------OBJ:V-N--------+ | +----------------------------COMP_at:N-N----------------------------+ | | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) APPOS (S,B) OBJ:V-N (required,factor) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (was,site) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (site,S) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_by:V-N (required,sigma) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) OBJ:V-N (was,initiation) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) Parse 523 +------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +----------------------------COMP_of:N-N----------------------------+ | | | +-------------APPOS------------+ | | +-------------OBJ:V-N------------+ +-----SUBJ:V_PASS-N-----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +SUBJ:V+ +MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V-N (recognized,initiation) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,site) OBJ:V-N (was,initiation) APPOS (S,B) COMP_of:N-N (initiation,promoter) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (S,A) APPOS (factor,GENEXXX) OBJ:V-N (recognized,factor) SUBJ:V-N (stress,general) COMP_at:N-N (transcription,site) MOD:V-ADV (recognized,presumably) SUBJ:V_PASS-N (required,factor) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) APPOS (transcription,S) SUBJ:V-N (preceding,promoter) OBJ:V-N (preceding,start) Parse 524 +-----------SUBJ:V-N----------+ +---------------------------SUBJ:V-N---------------------------+ +--------OBJ:V-N--------+ | | +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) APPOS (S,A) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (site,S) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (was,presumably) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) COMP_of:N-N (initiation,transcription) COMP_by:V-N (recognized,vegetative) OBJ:V-N (was,start) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (recognized,preceding) OBJ:V-N (preceding,start) Parse 525 +----------------------------------------------------------------------------------------------SUBJ:V-N---------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +------------SUBJ:V_PASS-N-----------+ +-----------------------------------SUBJ:V-N----------------------------------+ | | +------------OBJ:V-N-----------+ | | +--------------------COMP_at:N-N--------------------+ | | +-------------OBJ:V-N------------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) OBJ:V-N (was,initiation) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,initiation) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,sigma) SUBJ:V-N (recognized,stress) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) COMP_for:N-N (stress,initiation) Parse 526 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ +---------------------------SUBJ:V-N--------------------------+ | +--------OBJ:V-N--------+ | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (preceding,transcription) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (recognized,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) Parse 527 +------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +----------------------------COMP_at:N-N----------------------------+ +------------------SUBJ:V-N------------------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V_PASS-N-----+ +---------------COMP_at:N-N--------------+ | +----------OBJ:V-N----------+ | +-------------OBJ:V-N------------+ | +MOD_AT+MOD_A+--APPOS--+ | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . SUBJ:V-N (recognized,initiation) APPOS (S,A) COMP_at:N-N (initiation,promoter) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) APPOS (S,B) MOD_ATT:N-N (site,start) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (recognized,factor) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (was,preceding) APPOS (site,S) COMP_at:N-N (initiation,site) SUBJ:V_PASS-N (required,factor) MOD_ATT:N-ADJ (site,upstream) APPOS (site,S) Parse 528 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------COMP_by:N-N------------------------------------------------------------------------------+ | +-----------SUBJ:V-N----------+ +-----------------------------------SUBJ:V-N----------------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +--------OBJ:V-N--------+ | +----------------------------COMP_of:N-N----------------------------+ | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) COMP_of:N-N (initiation,promoter) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (site,S) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_by:N-N (initiation,sigma) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V-N (preceding,initiation) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) Parse 529 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) SUBJ:V-N (recognized,promoter) COMP_at:N-N (transcription,site) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) SUBJ:V-N (recognized,sigma) APPOS (sigma,S) Parse 530 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +---------------------------------------COMP_at:N-N--------------------------------------+ | +--------------------------COMP_of:N-N--------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ | +-----SUBJ:V-N----+ | | | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) SUBJ:V-N (recognized,promoter) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) SUBJ:V-N (recognized,sigma) Parse 531 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) SUBJ:V-N (recognized,promoter) COMP_at:N-N (transcription,site) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) SUBJ:V-N (recognized,sigma) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 532 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+----------------------------------COMP_for:V_PASS-N----------------------------------+ | | +--------OBJ:V-N--------+ | +-------------APPOS------------+ | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) APPOS (site,S) COMP_for:V_PASS-N (required,promoter) COMP_of:N-N (initiation,transcription) SUBJ:V-N (preceding,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) APPOS (transcription,S) Parse 533 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +--------------------------COMP_of:N-N--------------------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | | | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) APPOS (site,S) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) OBJ:V-N (was,start) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,sigma) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (recognized,promoter) MOD:V-ADV (recognized,presumably) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) APPOS (sigma,S) Parse 534 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_for:N-N---------------------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+ +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) APPOS (site,S) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_for:N-N (sigma,promoter) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,sigma) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) COMP_for:N-N (sigma,initiation) Parse 535 +----------------------------------------------------------------------------------------------SUBJ:V-N---------------------------------------------------------------------------------------------+ +------------SUBJ:V_PASS-N-----------+ | +------------OBJ:V-N-----------+ +----------------------------------COMP_for:V_PASS-N----------------------------------+ +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) COMP_for:V_PASS-N (required,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (was,start) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,vegetative) SUBJ:V-N (recognized,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 536 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +--------SUBJ:V_PASS-N--------+----------------------------------COMP_for:V_PASS-N----------------------------------+ | +--------OBJ:V-N--------+ | +-------------APPOS------------+ | +-------OBJ:V-N-------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) COMP_for:V_PASS-N (required,promoter) MOD:V-ADV (was,presumably) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) Parse 537 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ +----------------------------COMP_at:N-N----------------------------+ | | +--------OBJ:V-N--------+ | +------------------COMP_at:N-N-----------------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) COMP_at:N-N (initiation,S) SUBJ:V-N (was,factor) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) COMP_for:N-N (sigma,initiation) Parse 538 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ | | +-----------------------------------SUBJ:V-N----------------------------------+ | | +--------------SUBJ:V-N--------------+ +----------------------------COMP_of:N-N----------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | | +------------OBJ:V-N-----------+ | +------------------COMP_of:N-N-----------------+ | | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) SUBJ:V-N (required,stress) APPOS (S,B) COMP_of:N-N (initiation,S) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) SUBJ:V-N (preceding,initiation) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) SUBJ:V_PASS-N (recognized,start) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) COMP_by:N-N (initiation,vegetative) Parse 539 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ | | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +-----------SUBJ:V-N----------+ +----------------------------COMP_of:N-N----------------------------+ | | | +--------OBJ:V-N--------+ | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V_PASS-N (recognized,initiation) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) COMP_by:N-N (initiation,vegetative) Parse 540 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +----------------------------------------------------COMP_at:N-N----------------------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +--------------------------COMP_of:N-N--------------------------+ | | | | +------------------COMP_for:N-N-----------------+ | | | | | +--------SUBJ:V_PASS-N--------+ | | | | | | +--------OBJ:V-N--------+ | | | | | | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | | +MOD_AT+ +--APPOS--+ | | | | +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) OBJ:V-N (was,sigma) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) APPOS (factor,GENEXXX) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) COMP_at:N-N (sigma,promoter) MOD:V-ADV (was,presumably) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (preceding,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) APPOS (site,S) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,sigma) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) COMP_at:N-N (sigma,site) COMP_for:N-N (sigma,initiation) Parse 541 +----------------------------------------------------------------------------------------------SUBJ:V-N---------------------------------------------------------------------------------------------+ +------------SUBJ:V_PASS-N-----------+ | +------------OBJ:V-N-----------+ +-----------------------------------COMP_at:V_PASS-N----------------------------------+ +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_at:V_PASS-N (required,promoter) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) COMP_at:V_PASS-N (required,site) MOD:V-ADV (was,presumably) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (was,start) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,stress) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,vegetative) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 542 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +-----------------------------------COMP_by:V-N----------------------------------+ | +-----------SUBJ:V-N----------+ +---------------------------SUBJ:V-N--------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +--------OBJ:V-N--------+ | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (preceding,transcription) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) COMP_by:V-N (preceding,vegetative) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (transcription,promoter) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) Parse 543 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +------------------------------------------------------------------------------COMP_by:N-N------------------------------------------------------------------------------+ | | | +--------------------------------------------------------SUBJ:V_PASS-N-------------------------------------------------------+ | | +-----------SUBJ:V-N----------+ | +--------------------------------------------------OBJ:V-N-------------------------------------------------+ | | | +--------OBJ:V-N--------+ | | +--------------------COMP_at:N-N--------------------+ +------------------SUBJ:V-N------------------+ | | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +----------OBJ:V-N----------+ | | | | | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_at:N-N (transcription,site) OBJ:V-N (was,transcription) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-N (site,start) OBJ:V-N (preceding,site) MOD_ATT:N-N (sigma,stress) APPOS (site,S) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (recognized,transcription) SUBJ:V-N (was,preceding) COMP_by:N-N (initiation,sigma) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (site,upstream) COMP_at:N-N (transcription,promoter) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) Parse 544 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ | +--------------------------------------------------------------------------COMP_by:N-N-------------------------------------------------------------------------+ | +-----------SUBJ:V-N----------+ | +-------------SUBJ:V_PASS-N-------------+ | | +--------OBJ:V-N--------+ | +----------------------------COMP_at:N-N----------------------------+ +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +MOD:V_PASS+ | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (site,S) SUBJ:V-N (was,site) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) APPOS (site,S) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) MOD_ATT:N-ADJ (site,upstream) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,promoter) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) MOD:V_PASS-ADV (recognized,presumably) COMP_by:N-N (initiation,vegetative) Parse 545 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | +-------OBJ:V-N-------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ +---------------------COMP_at:V_PASS-N---------------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) COMP_at:V_PASS-N (required,site) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,promoter) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (sigma,S) Parse 546 +----------------------------------------------------------------------------------------------SUBJ:V-N---------------------------------------------------------------------------------------------+ +------------------------------COMP_of:N-N-----------------------------+ | +------------SUBJ:V_PASS-N-----------+ | +--------------------------------SUBJ:V-N--------------------------------+ +------------OBJ:V-N-----------+ | | | +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+ +MOD_A+--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (stress,transcription) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,promoter) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,vegetative) SUBJ:V-N (recognized,stress) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) Parse 547 +----------------------------------------------------------------------------------------------SUBJ:V-N---------------------------------------------------------------------------------------------+ +---------------------COMP_for:N-N---------------------+ | +------------SUBJ:V_PASS-N-----------+ | +--------------------------------SUBJ:V-N--------------------------------+ +------------OBJ:V-N-----------+ | +---------------------APPOS--------------------+ | +-------OBJ:V-N-------+ +-------------OBJ:V-N------------+ | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +--------COMP_by:V-N-------+ | +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | +MOD_ATT:+ +--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (sigma,vegetative) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,promoter) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,sigma) SUBJ:V-N (recognized,stress) SUBJ:V_PASS-N (required,stress) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_for:N-N (stress,initiation) Parse 548 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_at:N-N----------------------------------------------------+ | +------------------------------------------COMP_at:N-N-----------------------------------------+ | | +---------------------------------------COMP_at:N-N--------------------------------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------OBJ:V-N--------+ | | | | +-------OBJ:V-N-------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) OBJ:V-N (was,sigma) COMP_at:N-N (sigma,promoter) MOD:V-ADV (was,presumably) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) OBJ:V-N (was,start) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) COMP_at:N-N (sigma,S) Parse 549 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------------COMP_by:V-N----------------------------------------------------------------------------------+ | +--------------SUBJ:V-N--------------+ +----------------------------COMP_of:N-N----------------------------+ +-------------SUBJ:V_PASS-N-------------+ | | +------------OBJ:V-N-----------+ | | +-------------APPOS------------+ | +-------OBJ:V-N-------+ | | | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (was,start) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (initiation,promoter) SUBJ:V-N (required,stress) APPOS (S,B) OBJ:V-N (required,factor) APPOS (site,S) SUBJ:V-N (was,site) COMP_of:N-N (initiation,transcription) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) COMP_by:V-N (required,vegetative) APPOS (factor,GENEXXX) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) SUBJ:V_PASS-N (recognized,start) SUBJ:V-N (preceding,promoter) APPOS (transcription,S) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 550 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +----------------------------------------------------COMP_at:N-N----------------------------------------------------+ | +---------------------------------------COMP_at:N-N--------------------------------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | | +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) COMP_at:N-N (sigma,promoter) MOD:V-ADV (was,presumably) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) COMP_for:V_PASS-N (required,initiation) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) Parse 551 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +----------------------------------------------------COMP_for:N-N---------------------------------------------------+ | | +-----------------------------------------COMP_for:N-N-----------------------------------------+ | | | +------------------COMP_for:N-N-----------------+ | | | | +--------SUBJ:V_PASS-N--------+ | | | | | +--------OBJ:V-N--------+ | | | | | +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) APPOS (site,S) OBJ:V-N (was,sigma) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) SUBJ:V-N (preceding,sigma) APPOS (factor,GENEXXX) COMP_for:N-N (sigma,S) COMP_for:N-N (sigma,promoter) OBJ:V-N (was,start) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 552 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+--------------------------------------------------OBJ:V-N-------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ +---------------------------SUBJ:V-N--------------------------+ | | +--------OBJ:V-N--------+ | +--------------------COMP_at:N-N--------------------+ | | | | +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) OBJ:V-N (was,transcription) SUBJ:V-N (preceding,transcription) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,sigma) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,vegetative) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) Parse 553 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +-----------------------------------------------------------------------------------COMP_by:V-N----------------------------------------------------------------------------------+ | | +----------------------------------------------------------------SUBJ:V_PASS-N---------------------------------------------------------------+ | | +--------------SUBJ:V-N--------------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | | | +------------OBJ:V-N-----------+ | +----------------------------COMP_at:N-N----------------------------+ +------------------SUBJ:V-N------------------+ | | | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +----------OBJ:V-N----------+ | | | | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+MOD_+APPOS+APP+ +MOD:V-+ | | +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (required,stress) APPOS (S,B) OBJ:V-N (required,factor) APPOS (site,S) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) SUBJ:V_PASS-N (recognized,initiation) MOD:V-ADV (was,presumably) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD_ATT:N-N (site,start) COMP_by:V-N (required,vegetative) OBJ:V-N (preceding,site) APPOS (site,S) APPOS (factor,GENEXXX) SUBJ:V-N (was,preceding) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) COMP_at:N-N (initiation,promoter) OBJ:V-N (was,initiation) COMP_for:V-N (required,initiation) Parse 554 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +--------------------------COMP_of:N-N--------------------------+ | +--------SUBJ:V_PASS-N--------+ | | +--------OBJ:V-N--------+ | +--------------------COMP_at:N-N--------------------+ +-------OBJ:V-N-------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+ | +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD:V-ADV (was,presumably) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,sigma) COMP_for:V_PASS-N (required,initiation) COMP_by:V-N (recognized,vegetative) COMP_of:N-N (sigma,transcription) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) Parse 555 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ | +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +--------SUBJ:V_PASS-N--------+ | +------------------SUBJ:V-N------------------+ | +--------OBJ:V-N--------+ | +----------------------------COMP_at:N-N----------------------------+ +----------OBJ:V-N----------+ | | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +MOD_ATT:N-ADJ+ | +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | | +MOD_+APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) MOD:V-ADV (was,presumably) COMP_at:N-N (initiation,site) APPOS (factor,GENEXXX) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-N (site,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (was,preceding) APPOS (site,S) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,sigma) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,downstream) MOD_ATT:N-ADJ (site,upstream) COMP_at:N-N (initiation,promoter) OBJ:V-N (preceding,site) Parse 556 +-----------SUBJ:V-N----------+ +---------------------------SUBJ:V-N---------------------------+ +--------OBJ:V-N--------+ | | +-------OBJ:V-N-------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +-------COMP_at:N-N------+ +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+ +--APPOS--+ | +---COMP_for:V-N--+ | +MOD_AT+APPOS+APP+ | +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) APPOS (S,B) SUBJ:V-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) APPOS (factor,GENEXXX) OBJ:V-N (was,start) APPOS (S,A) COMP_at:N-N (transcription,site) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) OBJ:V-N (recognized,factor) APPOS (site,S) SUBJ:V-N (was,factor) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) SUBJ:V-N (recognized,preceding) OBJ:V-N (preceding,start) COMP_for:V-N (required,initiation) Parse 557 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | | +-------OBJ:V-N-------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) MOD:V-ADV (was,presumably) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (recognized,promoter) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) Parse 558 +--------------------------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------------------------+ +--------------SUBJ:V-N--------------+ +-------------SUBJ:V_PASS-N-------------+ | +------------OBJ:V-N-----------+ | +----------------------------COMP_at:N-N----------------------------+ +-------OBJ:V-N-------+ | | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ | | +MOD_AT+ +MOD_A+--APPOS--+ | +---COMP_for:V-N--+--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ +MOD:V-+ +-COMP_by:V_PASS-N+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) MOD_ATT:N-N (factor,sigma) SUBJ:V-N (required,stress) APPOS (site,S) SUBJ:V-N (preceding,promoter) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) COMP_by:V_PASS-N (recognized,vegetative) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) MOD:V-ADV (was,presumably) OBJ:V-N (was,start) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) OBJ:V-N (was,stress) MOD_ATT:N-ADJ (site,upstream) APPOS (S,B) SUBJ:V_PASS-N (recognized,start) COMP_at:N-N (initiation,promoter) SUBJ:V-N (was,site) OBJ:V-N (preceding,start) OBJ:V-N (required,factor) COMP_for:V-N (required,initiation) Parse 559 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +----------------------------------------------------COMP_for:N-N---------------------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | | +--------OBJ:V-N--------+ | +---------------------APPOS--------------------+ | | +-------OBJ:V-N-------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ | | +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) APPOS (initiation,S) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) MOD_ATT:N-ADJ (sigma,general) SUBJ:V-N (preceding,sigma) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) COMP_for:N-N (sigma,promoter) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) COMP_for:N-N (sigma,initiation) Parse 560 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +---------------------------------------------APPOS--------------------------------------------+ | | +--------SUBJ:V_PASS-N--------+ | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | | +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | +---------------COMP_at:N-N--------------+ | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+ +--APPOS--+ | +COMP_for:V_PASS-N+--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) COMP_at:N-N (initiation,site) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) SUBJ:V-N (preceding,sigma) SUBJ:V-N (was,factor) SUBJ:V-N (recognized,promoter) COMP_for:V_PASS-N (required,initiation) MOD_ATT:N-ADJ (stress,general) MOD:V-ADV (recognized,presumably) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) APPOS (sigma,S) Parse 561 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ +----------------------------------------------------------OBJ:V-N---------------------------------------------------------+ | +--------OBJ:V-N--------+ | | +--------------------COMP_at:N-N--------------------+ | | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (was,initiation) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (transcription,promoter) COMP_for:N-N (sigma,initiation) Parse 562 +----------------------------------------------------------------------------------------------SUBJ:V-N---------------------------------------------------------------------------------------------+ +--------------------------------------------------------COMP_at:N-N-------------------------------------------------------+ | +------------------------------------------COMP_at:N-N------------------------------------------+ | | +---------------------COMP_for:N-N---------------------+ | | | +------------SUBJ:V_PASS-N-----------+ | | | | +------------OBJ:V-N-----------+ | | | | +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | | | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+ +MOD_A+--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) SUBJ:V-N (was,site) COMP_at:N-N (stress,site) MOD_ATT:N-N (factor,sigma) SUBJ:V_PASS-N (required,stress) OBJ:V-N (recognized,factor) APPOS (S,B) OBJ:V-N (was,stress) APPOS (site,S) COMP_of:N-N (initiation,transcription) MOD_ATT:N-N (factor,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) SUBJ:V-N (was,factor) APPOS (factor,GENEXXX) APPOS (site,S) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,vegetative) SUBJ:V-N (recognized,stress) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (stress,promoter) COMP_for:N-N (stress,initiation) Parse 563 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +-----------------------------------------------------------SUBJ:V-N----------------------------------------------------------+ | +------------------COMP_for:N-N-----------------+ | | +--------SUBJ:V_PASS-N--------+ | | | +--------OBJ:V-N--------+ | | +--------------------COMP_at:N-N--------------------+ | +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ | | +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) MOD_ATT:N-ADJ (start,downstream) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V-N (recognized,sigma) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) SUBJ:V-N (preceding,sigma) APPOS (factor,GENEXXX) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) MOD_ATT:N-ADJ (stress,general) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) COMP_at:N-N (transcription,promoter) COMP_for:N-N (sigma,initiation) Parse 564 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +------------------COMP_for:N-N-----------------+ | +--------SUBJ:V_PASS-N--------+ | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | +-------OBJ:V-N-------+ | +MOD_ATT:N-ADJ+ +-----SUBJ:V-N----+ | | +-------COMP_at:N-N------+ | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ | +MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+APPOS+APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) COMP_of:N-N (initiation,transcription) SUBJ:V-N (was,site) SUBJ:V-N (recognized,promoter) COMP_at:N-N (transcription,site) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) SUBJ:V_PASS-N (required,sigma) APPOS (site,S) MOD_ATT:N-ADJ (sigma,general) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) MOD_ATT:N-N (sigma,stress) OBJ:V-N (was,sigma) APPOS (factor,GENEXXX) APPOS (site,S) SUBJ:V-N (was,factor) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) SUBJ:V-N (recognized,sigma) COMP_for:N-N (sigma,initiation) Parse 565 +------------------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------------------+ +---------------------------------------------APPOS--------------------------------------------+ | +---------------------------------------COMP_at:N-N--------------------------------------+ | | +------------------COMP_for:N-N-----------------+ | | | +--------SUBJ:V_PASS-N--------+ | | | +--------------------------------SUBJ:V-N--------------------------------+ +--------OBJ:V-N--------+ | | | | | +-------OBJ:V-N-------+ | | +-----SUBJ:V-N----+ | | | | | +--------OBJ:V-N-------+ +----SUBJ:V-N----+ +-------------OBJ:V-N------------+ +MOD_AT+MOD_AT+ +--APPOS--+ | | +--COMP_of:N-N--+ +MOD_AT+ +APP+ +-SUBJ:V-N+ +MOD_ATT:+ +APPOS+APP+ | +-MOD:V-ADV+---COMP_by:V-N---+ +MOD_A+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | | | | The general stress sigma factor , GENEXXX , was required for the initiation of transcription at the upstream site , S ( B ) , and the promoter preceding the downstream start site , S ( A ) , was presumably recognized by the vegetative sigma factor , GENEXXX . APPOS (S,A) SUBJ:V-N (was,site) SUBJ:V-N (recognized,promoter) MOD_ATT:N-N (factor,sigma) OBJ:V-N (recognized,factor) APPOS (S,B) APPOS (site,S) OBJ:V-N (was,sigma) COMP_of:N-N (initiation,transcription) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (start,downstream) OBJ:V-N (was,start) SUBJ:V-N (was,factor) MOD_ATT:N-N (sigma,stress) APPOS (factor,GENEXXX) MOD_ATT:N-ADJ (stress,general) SUBJ:V_PASS-N (required,sigma) COMP_by:V-N (recognized,vegetative) MOD_ATT:N-ADJ (site,upstream) MOD:V-ADV (recognized,presumably) OBJ:V-N (preceding,start) SUBJ:V-N (preceding,promoter) COMP_at:N-N (sigma,site) SUBJ:V-N (recognized,sigma) APPOS (sigma,S) COMP_for:N-N (sigma,initiation) PMID: 9642177-1 Sentence 36 The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . Parse 0 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +--------MOD_ATT:N-N-------+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 1 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +--------MOD_ATT:N-N-------+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 2 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ +--------MOD_ATT:N-N-------+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (programs,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 3 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ +--------MOD_ATT:N-N-------+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (programs,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 4 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +-----------------------------COMP_of:N-N-----------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +--------MOD_ATT:N-N-------+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 5 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +-----------------------------COMP_of:N-N-----------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +--------MOD_ATT:N-N-------+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 6 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +--------MOD_ATT:N-N-------+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 7 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +--------MOD_ATT:N-N-------+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 8 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ +--------MOD_ATT:N-N-------+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (programs,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 9 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ +--------MOD_ATT:N-N-------+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (programs,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 10 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +--------MOD_ATT:N-N-------+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:V-ADV (least,two) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD:ADJ-ADV (two,least) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (programs,compartment-specific) SUBJ:V-N (suggest,results) Parse 11 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +--------MOD_ATT:N-N-------+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:V-ADV (least,two) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD:ADJ-ADV (two,least) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (programs,compartment-specific) SUBJ:V-N (suggest,results) Parse 12 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +--------MOD_ATT:N-N-------+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+---------APPOS---------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) APPOS (programs,one) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 13 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +--------MOD_ATT:N-N-------+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+---------APPOS---------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) APPOS (programs,one) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 14 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +--------------------------------APPOS--------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +--------MOD_ATT:N-N-------+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) APPOS (existence,one) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 15 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +--------------------------------APPOS--------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +--------MOD_ATT:N-N-------+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) APPOS (existence,one) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 16 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +-----MOD_ATT:N-N----+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 17 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +-----MOD_ATT:N-N----+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 18 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +------------------COMP_on:ADJ-N------------------+ | | +-----------------COMP_of:N-N-----------------+ | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | +-MOD_ATT:N-ADJ-+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | | +MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 19 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +------------------COMP_on:ADJ-N------------------+ | | +-----------------COMP_of:N-N-----------------+ | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | +-MOD_ATT:N-ADJ-+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | | +MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 20 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ +-----MOD_ATT:N-N----+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (programs,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 21 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ +-----MOD_ATT:N-N----+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (programs,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 22 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +------------------COMP_on:ADJ-N------------------+ | | +-----------------COMP_of:N-N-----------------+ | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ | +-MOD_ATT:N-ADJ-+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | | +MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (programs,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 23 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +-----------------------------COMP_of:N-N-----------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +-----MOD_ATT:N-N----+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 24 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +------------------COMP_on:ADJ-N------------------+ | | +-----------------COMP_of:N-N-----------------+ | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ | +-MOD_ATT:N-ADJ-+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | | +MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (programs,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 25 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +-----------------------------COMP_of:N-N-----------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +-----MOD_ATT:N-N----+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 26 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ +------------------COMP_on:ADJ-N------------------+ | | +-----------------COMP_of:N-N-----------------+ | | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | | +-MOD_ATT:N-ADJ-+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | | +MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 27 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ +------------------COMP_on:ADJ-N------------------+ | | +-----------------COMP_of:N-N-----------------+ | | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | | +-MOD_ATT:N-ADJ-+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | | +MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 28 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +-----MOD_ATT:N-N----+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 29 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +-----MOD_ATT:N-N----+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 30 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +------------------COMP_on:ADJ-N------------------+ | | | +-----------------COMP_of:N-N-----------------+ | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | +-MOD_ATT:N-ADJ-+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | | +MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 31 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +------------------COMP_on:ADJ-N------------------+ | | | +-----------------COMP_of:N-N-----------------+ | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | +-MOD_ATT:N-ADJ-+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+MOD_PO+ | | +MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 32 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ +-----MOD_ATT:N-N----+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (programs,dependent) COMP_on:V-N (suggest,GENEXXX) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 33 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ +-----MOD_ATT:N-N----+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (programs,dependent) COMP_on:V-N (suggest,GENEXXX) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 34 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +------------------COMP_on:ADJ-N------------------+ | | | +-----------------COMP_of:N-N-----------------+ | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ | +-MOD_ATT:N-ADJ-+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | | +MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (programs,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 35 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +-----MOD_ATT:N-N----+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:V-ADV (least,two) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) MOD:ADJ-ADV (two,least) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (programs,compartment-specific) SUBJ:V-N (suggest,results) Parse 36 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +------------------COMP_on:ADJ-N------------------+ | | | +-----------------COMP_of:N-N-----------------+ | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ +--------MOD_POST:N-ADJ--------+ | +-MOD_ATT:N-ADJ-+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+------COMP_of:N-N------+ | | | +MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (programs,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_of:N-N (programs,one) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 37 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +-----------------------------COMP_of:N-N-----------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +-----MOD_ATT:N-N----+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:V-ADV (least,two) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) MOD:ADJ-ADV (two,least) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (programs,compartment-specific) SUBJ:V-N (suggest,results) Parse 38 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------------------COMP_of:N-N-----------------------------+ +------------------COMP_on:ADJ-N------------------+ | | | +-----------------COMP_of:N-N-----------------+ | | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | | +-MOD_ATT:N-ADJ-+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | | +MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:V-ADV (least,two) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD:ADJ-ADV (two,least) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (programs,compartment-specific) SUBJ:V-N (suggest,results) Parse 39 +---------------------------------------------------------------------------------------------------COMP_on:V-N---------------------------------------------------------------------------------------------------+ | +------------------------------COMP_on:ADJ-N-----------------------------+ | | +-----------------------------COMP_of:N-N-----------------------------+ +------------------COMP_on:ADJ-N------------------+ | | | +-----------------COMP_of:N-N-----------------+ | | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | | +-MOD_ATT:N-ADJ-+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | | +MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:V-ADV (least,two) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) MOD_POST:N-ADJ (one,dependent) COMP_on:V-N (suggest,GENEXXX) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) COMP_of:N-N (existence,one) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD:ADJ-ADV (two,least) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) MOD_ATT:N-ADJ (programs,compartment-specific) SUBJ:V-N (suggest,results) Parse 40 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +-----MOD_ATT:N-N----+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+---------APPOS---------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) APPOS (programs,one) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 41 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | +-----MOD_ATT:N-N----+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+---------APPOS---------+MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) APPOS (programs,one) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 42 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +------------------COMP_on:ADJ-N------------------+ | | +-----------------COMP_of:N-N-----------------+ | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | +-MOD_ATT:N-ADJ-+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+---------APPOS---------+MOD_PO+ | | +MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (sigma,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) APPOS (programs,one) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 43 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +------------------COMP_on:ADJ-N------------------+ | | +-----------------COMP_of:N-N-----------------+ | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | +-MOD_ATT:N-ADJ-+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+---------APPOS---------+MOD_PO+ | | +MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD:ADJ-ADV (two,least) MOD_ATT:N-ADJ (factor,prespore-specific) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) MOD_ATT:N-ADJ (programs,compartment-specific) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) APPOS (programs,one) MOD_ATT:N-N (factor,sigma) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 44 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +--------------------------------APPOS--------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +-----MOD_ATT:N-N----+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) APPOS (existence,one) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 45 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +--------------------------------APPOS--------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +-----------------COMP_of:N-N-----------------+ | +------------------COMP_on:ADJ-N------------------+ | | +--SUBJ:V-N--+ | +MOD:+ | | | +-----MOD_ATT:N-N----+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | +MOD_ATT:N+MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) APPOS (existence,one) MOD_ATT:N-N (sigma,mother) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) OBJ:V-N (suggest,existence) MOD_ATT:N-ADJ (sigma,cell-specific) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 46 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +--------------------------------APPOS--------------------------------+ +------------------COMP_on:ADJ-N------------------+ | | +-----------------COMP_of:N-N-----------------+ | | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | | +-MOD_ATT:N-ADJ-+ | | | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | | +MOD_A+MOD_ATT+ | +MOD_ATT:N-A+MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (sigma,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) APPOS (existence,one) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) Parse 47 +-----------------------------------------------------COMP_on:ADJ-N-----------------------------------------------------+ +------------------------------COMP_on:ADJ-N-----------------------------+ | +--------------------------------APPOS--------------------------------+ +------------------COMP_on:ADJ-N------------------+ | | +-----------------COMP_of:N-N-----------------+ | | +--------MOD_ATT:N-N-------+ | | | +--SUBJ:V-N--+ | +MOD:+ | | | | +-MOD_ATT:N-ADJ-+ | | +--MOD_ATT:N-ADJ--+ | | +MOD:V-+---OBJ:V-N--+ +MOD:+ +-MOD_ATT:N-ADJ+ +MOD_PO+ | | +MOD_A+MOD_ATT+ | | +MOD_A+MOD_ATT+ | | | | | | | | | | | | | | | | | | | | The results also suggest the existence of at least two compartment-specific programs of proteolysis , one dependent on the mother cell-specific sigma factor GENEXXX and the other dependent on the prespore-specific sigma factor GENEXXX . MOD_ATT:N-ADJ (factor,prespore-specific) MOD:ADJ-ADV (two,least) MOD_ATT:N-N (GENEXXX,factor) COMP_on:ADJ-N (dependent,GENEXXX) MOD_POST:N-ADJ (one,dependent) APPOS (existence,one) COMP_on:ADJ-N (dependent,dependent) MOD_ATT:N-N (factor,sigma) COMP_of:N-N (existence,programs) MOD_ATT:N-N (factor,mother) OBJ:V-N (suggest,existence) MOD_ATT:N-N (factor,sigma) MOD_ATT:N-ADJ (programs,compartment-specific) MOD:V-ADV (suggest,also) MOD_ATT:N-N (GENEXXX,factor) MOD_ATT:N-ADJ (factor,cell-specific) COMP_on:ADJ-N (dependent,GENEXXX) SUBJ:V-N (suggest,results) MOD:V-ADV (least,two) PMID: 9683469-1 Sentence 37 In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . Parse 0 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ | | +------------COMP_under:V-N------------+ | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | +--SUBJ:V-N-+MOD:V-A+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . MOD_ATT:N-N (holoenzymes,GENEXXX) MOD:V-ADV (least,are) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) COMP_under:V-N (are,control) MOD_PRED:N-ADJ (promoters,active) MOD_POST:N-ADJ (holoenzymes,vitro) MOD_ATT:N-N (control,GENEXXX) Parse 1 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ | | +------------COMP_under:V-N------------+ | +-----MOD_ATT:N-N-----+ | +--SUBJ:V-N-+MOD:V-A+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . MOD:V-ADV (least,are) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_under:V-N (are,control) MOD_PRED:N-ADJ (promoters,active) MOD_ATT:N-N (control,GENEXXX) Parse 2 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | | | | +--------COMP_under:V-N--------+ | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | | +--SUBJ:V-N-+MOD:V-A+ | | +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD:V-ADV (least,are) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_POST:N-ADJ (holoenzymes,vitro) SUBJ:V-N (control,promoters) COMP_under:V-N (are,GENEXXX) MOD_PRED:N-ADJ (several,active) Parse 3 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | | | | +--------COMP_under:V-N--------+ | | +-----MOD_ATT:N-N-----+ | | +--SUBJ:V-N-+MOD:V-A+ | | +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD:V-ADV (least,are) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) SUBJ:V-N (control,promoters) COMP_under:V-N (are,GENEXXX) MOD_PRED:N-ADJ (several,active) Parse 4 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ +---------------OBJ:V-N---------------+ | | +------------COMP_under:V-N------------+ | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | +--SUBJ:V-N-+MOD:V-A+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . MOD_ATT:N-N (holoenzymes,GENEXXX) MOD:V-ADV (least,are) OBJ:V-N (with,holoenzymes) COMP_in:N-N (holoenzymes,vitro) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) COMP_under:V-N (are,control) MOD_PRED:N-ADJ (promoters,active) MOD_POST:N-ADJ (holoenzymes,vitro) MOD_ATT:N-N (control,GENEXXX) Parse 5 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ +---------------OBJ:V-N---------------+ | | +------------COMP_under:V-N------------+ | | +-----MOD_ATT:N-N-----+ | +--SUBJ:V-N-+MOD:V-A+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . MOD:V-ADV (least,are) OBJ:V-N (with,holoenzymes) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_under:V-N (are,control) MOD_PRED:N-ADJ (promoters,active) MOD_ATT:N-N (control,GENEXXX) Parse 6 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | +---------------OBJ:V-N---------------+ | | | +--------COMP_under:V-N--------+ | | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | | +--SUBJ:V-N-+MOD:V-A+ | | +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD:V-ADV (least,are) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_POST:N-ADJ (holoenzymes,vitro) OBJ:V-N (with,holoenzymes) SUBJ:V-N (control,promoters) COMP_under:V-N (are,GENEXXX) MOD_PRED:N-ADJ (several,active) Parse 7 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | +---------------OBJ:V-N---------------+ | | | +--------COMP_under:V-N--------+ | | | +-----MOD_ATT:N-N-----+ | | +--SUBJ:V-N-+MOD:V-A+ | | +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD:V-ADV (least,are) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) OBJ:V-N (with,holoenzymes) SUBJ:V-N (control,promoters) COMP_under:V-N (are,GENEXXX) MOD_PRED:N-ADJ (several,active) Parse 8 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ | | +------------COMP_under:V-N------------+ | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | +--SUBJ:V-N-+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_under:V-N (are,control) MOD_PRED:N-ADJ (promoters,active) MOD_POST:N-ADJ (holoenzymes,vitro) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD_ATT:N-N (control,GENEXXX) Parse 9 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ | | +------------COMP_under:V-N------------+ | +-----MOD_ATT:N-N-----+ | +--SUBJ:V-N-+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_under:V-N (are,control) MOD_PRED:N-ADJ (promoters,active) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD_ATT:N-N (control,GENEXXX) Parse 10 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ | +------------------COMP_under:N-N------------------+ | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | +--SUBJ:V-N-+MOD:V-A+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . MOD_ATT:N-N (holoenzymes,GENEXXX) MOD:V-ADV (least,are) COMP_under:N-N (promoters,control) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_PRED:N-ADJ (promoters,active) MOD_POST:N-ADJ (holoenzymes,vitro) MOD_ATT:N-N (control,GENEXXX) Parse 11 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ | +------------------COMP_under:N-N------------------+ | +-----MOD_ATT:N-N-----+ | +--SUBJ:V-N-+MOD:V-A+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . MOD:V-ADV (least,are) COMP_under:N-N (promoters,control) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD_PRED:N-ADJ (promoters,active) MOD_ATT:N-N (control,GENEXXX) Parse 12 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | | +--SUBJ:V-N-+--------COMP_under:V-N--------+ | +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_POST:N-ADJ (holoenzymes,vitro) SUBJ:V-N (control,promoters) COMP_under:V-N (are,GENEXXX) MOD_PRED:N-ADJ (several,active) Parse 13 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | +-----MOD_ATT:N-N-----+ | | +--SUBJ:V-N-+--------COMP_under:V-N--------+ | +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) SUBJ:V-N (control,promoters) COMP_under:V-N (are,GENEXXX) MOD_PRED:N-ADJ (several,active) Parse 14 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ +---------------OBJ:V-N---------------+ | | +------------COMP_under:V-N------------+ | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | +--SUBJ:V-N-+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) COMP_under:V-N (are,control) MOD_PRED:N-ADJ (promoters,active) MOD_POST:N-ADJ (holoenzymes,vitro) OBJ:V-N (with,holoenzymes) MOD_ATT:N-N (control,GENEXXX) Parse 15 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ +---------------OBJ:V-N---------------+ | | +------------COMP_under:V-N------------+ | | +-----MOD_ATT:N-N-----+ | +--SUBJ:V-N-+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_under:V-N (are,control) MOD_PRED:N-ADJ (promoters,active) OBJ:V-N (with,holoenzymes) MOD_ATT:N-N (control,GENEXXX) Parse 16 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | | | +--------------COMP_under:N-N--------------+ | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | | +--SUBJ:V-N-+MOD:V-A+ | | +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD:V-ADV (least,are) COMP_under:N-N (promoters,GENEXXX) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_POST:N-ADJ (holoenzymes,vitro) SUBJ:V-N (control,promoters) MOD_PRED:N-ADJ (several,active) Parse 17 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | | | +--------------COMP_under:N-N--------------+ | | +-----MOD_ATT:N-N-----+ | | +--SUBJ:V-N-+MOD:V-A+ | | +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD:V-ADV (least,are) COMP_under:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) SUBJ:V-N (control,promoters) MOD_PRED:N-ADJ (several,active) Parse 18 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ | +------------------COMP_under:N-N------------------+ | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | +--SUBJ:V-N-+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . COMP_under:N-N (promoters,control) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD_PRED:N-ADJ (promoters,active) MOD_POST:N-ADJ (holoenzymes,vitro) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD_ATT:N-N (control,GENEXXX) Parse 19 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ +---------------OBJ:V-N---------------+ | +------------------COMP_under:N-N------------------+ | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | +--SUBJ:V-N-+MOD:V-A+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . MOD_ATT:N-N (holoenzymes,GENEXXX) MOD:V-ADV (least,are) OBJ:V-N (with,holoenzymes) COMP_under:N-N (promoters,control) COMP_in:N-N (holoenzymes,vitro) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_PRED:N-ADJ (promoters,active) MOD_POST:N-ADJ (holoenzymes,vitro) MOD_ATT:N-N (control,GENEXXX) Parse 20 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ | +------------------COMP_under:N-N------------------+ | +-----MOD_ATT:N-N-----+ | +--SUBJ:V-N-+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . COMP_under:N-N (promoters,control) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD_PRED:N-ADJ (promoters,active) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD_ATT:N-N (control,GENEXXX) Parse 21 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ +---------------OBJ:V-N---------------+ | +------------------COMP_under:N-N------------------+ | | +-----MOD_ATT:N-N-----+ | +--SUBJ:V-N-+MOD:V-A+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . MOD:V-ADV (least,are) OBJ:V-N (with,holoenzymes) COMP_under:N-N (promoters,control) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD_PRED:N-ADJ (promoters,active) MOD_ATT:N-N (control,GENEXXX) Parse 22 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +---------------OBJ:V-N---------------+ | | +---------------------SUBJ:V-N---------------------+ | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | | +--SUBJ:V-N-+--------COMP_under:V-N--------+ | +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD_ATT:N-N (holoenzymes,GENEXXX) OBJ:V-N (with,holoenzymes) COMP_in:N-N (holoenzymes,vitro) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_POST:N-ADJ (holoenzymes,vitro) SUBJ:V-N (control,promoters) COMP_under:V-N (are,GENEXXX) MOD_PRED:N-ADJ (several,active) Parse 23 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +---------------OBJ:V-N---------------+ | | +---------------------SUBJ:V-N---------------------+ | | +-----MOD_ATT:N-N-----+ | | +--SUBJ:V-N-+--------COMP_under:V-N--------+ | +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) OBJ:V-N (with,holoenzymes) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) SUBJ:V-N (control,promoters) COMP_under:V-N (are,GENEXXX) MOD_PRED:N-ADJ (several,active) Parse 24 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | | | +--------------COMP_under:N-N--------------+ | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | | +--SUBJ:V-N-+ | | +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_under:N-N (promoters,GENEXXX) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_POST:N-ADJ (holoenzymes,vitro) SUBJ:V-N (control,promoters) MOD_PRED:N-ADJ (several,active) Parse 25 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | +---------------OBJ:V-N---------------+ | | +--------------COMP_under:N-N--------------+ | | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | | +--SUBJ:V-N-+MOD:V-A+ | | +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD:V-ADV (least,are) COMP_under:N-N (promoters,GENEXXX) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_POST:N-ADJ (holoenzymes,vitro) OBJ:V-N (with,holoenzymes) SUBJ:V-N (control,promoters) MOD_PRED:N-ADJ (several,active) Parse 26 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | | | +--------------COMP_under:N-N--------------+ | | +-----MOD_ATT:N-N-----+ | | +--SUBJ:V-N-+ | | +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) COMP_under:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) SUBJ:V-N (control,promoters) MOD_PRED:N-ADJ (several,active) Parse 27 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | +---------------OBJ:V-N---------------+ | | +--------------COMP_under:N-N--------------+ | | | +-----MOD_ATT:N-N-----+ | | +--SUBJ:V-N-+MOD:V-A+ | | +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD:V-ADV (least,are) COMP_under:N-N (promoters,GENEXXX) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) OBJ:V-N (with,holoenzymes) SUBJ:V-N (control,promoters) MOD_PRED:N-ADJ (several,active) Parse 28 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ +---------------OBJ:V-N---------------+ | +------------------COMP_under:N-N------------------+ | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | +--SUBJ:V-N-+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_under:N-N (promoters,control) COMP_in:N-N (holoenzymes,vitro) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_PRED:N-ADJ (promoters,active) MOD_POST:N-ADJ (holoenzymes,vitro) OBJ:V-N (with,holoenzymes) MOD_ATT:N-N (control,GENEXXX) Parse 29 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +------------------------MOD_PRED:N-ADJ-----------------------+ +---------------OBJ:V-N---------------+ | +------------------COMP_under:N-N------------------+ | | +-----MOD_ATT:N-N-----+ | +--SUBJ:V-N-+ +MOD_ATT+ +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . COMP_under:N-N (promoters,control) COMP_in:V_PASS-N (active,contrast) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) MOD_PRED:N-ADJ (promoters,active) OBJ:V-N (with,holoenzymes) MOD_ATT:N-N (control,GENEXXX) Parse 30 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | +---------------OBJ:V-N---------------+ | | +--------------COMP_under:N-N--------------+ | | | +-----MOD_ATT:N-N-----+COMP_in:N-N+ | | +--SUBJ:V-N-+ | | +COMP_with:+ | +MOD_ATT:N+MOD_POST:N-+ | | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_under:N-N (promoters,GENEXXX) OBJ:V-N (with,holoenzymes) COMP_in:N-N (holoenzymes,vitro) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_POST:N-ADJ (holoenzymes,vitro) SUBJ:V-N (control,promoters) MOD_PRED:N-ADJ (several,active) Parse 31 +---------------------------------COMP_in:V_PASS-N--------------------------------+ | +----------------------------MOD_PRED:N-ADJ----------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | | +---------------------SUBJ:V-N---------------------+ | +---------------OBJ:V-N---------------+ | | +--------------COMP_under:N-N--------------+ | | | +-----MOD_ATT:N-N-----+ | | +--SUBJ:V-N-+ | | +COMP_with:+ | +MOD_ATT:N+ | | | | | | | | | | | | In contrast , several promoters that are at least partially under GENEXXX control are active with both the GENEXXX and GENEXXX holoenzymes in vitro . OBJ:V-N (control,several) COMP_under:N-N (promoters,GENEXXX) OBJ:V-N (with,holoenzymes) MOD_ATT:N-N (holoenzymes,GENEXXX) COMP_in:V_PASS-N (active,contrast) COMP_with:ADJ-N (active,both) SUBJ:V-N (are,promoters) MOD_ATT:N-N (holoenzymes,GENEXXX) SUBJ:V-N (control,promoters) MOD_PRED:N-ADJ (several,active)